×

XPG GAMMIX D10 3200MHz 8GB DDR4 Memory | AX4U320038G16A-SR10

AED 175.00
In stock
SKU
AX4U320038G16A-SR10

● Unique heatsink design
● Low profile heatsink for effortless installation
● DDR4 - great performance and power efficiency
● Excellent cooling and stability
● Intel XMP 2.0 - more accessible overclocking
● Ready for AMD- and Intel-based systems

XPG GAMMIX D10 3200MHz 8GB DDR4 Memory | AX4U320038G16A-SR10

XPG GAMMIX D10 DDR4 memory modules are designed for gamers and PC enthusiasts with support for new Intel X299 plus SPD 2666MHz implementation, with factory speeds up to 3600MHz out the box. With high-quality PCBs, D10 improves signal transfer quality and
maintains stable operation at all times. It also supports Intel XMP 2.0 for quicker and safer overclocking. Available in black and red, D10 has an eye-catching serrated heatsink with an open top for excellent cooling performance through rapid heat removal. In addition, its low height allows easy installation even in systems with limited space. Like all ADATA memory modules, GAMMIX D10 comes with a lifetime warranty backed by excellent service for maximum peace of mind.

Low profile heatsink for effortless installation

Thanks to D10 having a low profile design, it can be easily installed even in small cases with limited space.

DDR4 - great performance and power efficiency

GAMMIX D10 supports the new Intel X299 platform and implements SPD 2666MHz. Operating voltage is 1.2V compared to 1.5V on older DDR3, which is a 20% reduction in power draw. This keeps systems cooler, more stable, and more energy efficient. GAMMIX D10 overclocks superbly at just 1.35V, achieving much higher clock frequencies than DDR3 to easily reach 3600MHz from the factory - with more potential available to dedicated overclockers.

Excellent cooling and stability

For PC enthusiasts and gamers, good system stability really matters, so GAMMIX D10 features high-quality PCBs to improve signal transfer quality and maintain great stability even if the system operates at high speeds or is taking on heavy multitasking.