The ASUS ROG Strix GeForce RTX™ 4060 OC Edition 8GB GDDR6 is a high-performance graphics card designed for gamers and creators seeking exceptional performance for 1080p gaming and content creation. Built on NVIDIA's Ada Lovelace architecture, it offers advanced ray tracing capabilities, AI-driven performance enhancements, and energy-efficient gaming, making it an excellent choice for those seeking top-tier performance and aesthetics.
SPECIFICATIONS:
Memory: 8GB GDDR6
Memory Bus: 128-bit
Bus Standard: PCI Express 4.0
CUDA Cores: 3072
Core Clocks:
OC Mode (Boost Clock): 2700 MHz
Default Mode (Boost Clock): 2670 MHz
Memory Speed: 17 Gbps
Recommended PSU: 550W
Key Features:
✅ NVIDIA Ada Lovelace Architecture – Experience real-time ray tracing, AI-driven DLSS 3, and improved energy efficiency with the latest Ada Lovelace technology.
✅ 8GB GDDR6 Ultra-Fast Memory – Ensures smooth 1080p gaming, high-speed multitasking, and enhanced performance in creative workloads.
✅ 128-Bit Memory Bus – Designed for efficient data transfer and reduced latency, delivering optimal gaming experiences.
✅ Factory Overclocked Core Clock – With a boost clock of up to 2700 MHz in OC Mode, it provides faster performance compared to reference models for stable and smooth gaming.
✅ PCI-E 4.0 Support – Next-generation connectivity for higher bandwidth and faster data speeds.
✅ Ray Tracing & DLSS 3 – Enjoy lifelike lighting, shadows, and reflections with NVIDIA’s RTX technology, while DLSS 3 boosts frame rates using AI-powered upscaling.
✅ Triple Axial-Tech Fan Design – Features three fans with an optimized design to increase airflow and ensure efficient cooling performance.
✅ 0dB Technology – An advanced onboard controller brings fans to a standstill when the GPU core temperature is below 50°C, letting you enjoy light gaming in relative silence.
✅ Dual Ball Fan Bearings – Can last up to twice as long as sleeve-bearing designs, enhancing durability.
✅ Protective Backplate – The PCB is reinforced by a backplate that adds structural rigidity, helping to prevent flex and protect components and trace pathways from damage.