ADATA Technology, the leading manufacturer of high-performance DRAM modules and NAND Flash products recently launched the XPG-SPECTRIX D80 DDR4 RGB memory — the world’s first RGB DDR4 memory with a hybrid cooling system.
The SPECTRIX D80 is a state-of-the-art device that operates with a combination of a liquid heat-sink, an aluminum heat-sink and thermally conductive materials on the PCB. In addition, it offers comprehensive thermal cooling capabilities and delivers an outstanding performance.
ADATA XPG first introduced a prototype liquid-cooled memory design during CES 2018 in Las Vegas. The RGB memory SPECTRIX D80 is the realization of the design’s viability for a commercially available memory module.
Here are some of the salient features and benefits of the device:
Liquid and Aluminium Heat Sink
A liquid heat sink on the top of the SPECTRIX D80 benefits from a non-conductive fluid to dissipate heat efficiently. It works in conjunction with an aluminum heat sink and thermally conductive materials on the PCB to offer comprehensive hybrid cooling system.
Equipped with programmable RGB memory lighting, the liquid heat-sink is not just functional, but also visually captivating with the fluid completely illuminated for all to see. Users can customize the lighting effects by setting up patterns, pulse speed, lighting intensity, and more.
Lighting control is intuitive with the RGB Sync app, or users can use an existing RGB lighting control software from a major motherboard maker.
Usability for Gamers
Made for avid gamers, DIY enthusiasts, and overclockers, the SPECTRIX D80 provides a wide frequency range from 2666 MHz to 5000 MHz with support for Intel® X299 2666 MHz and AMD AM4/Ryzen platforms.
Also, pre-configured Intel® XMP (Extreme Memory Profile) 2.0 profiles allow for quick over-clocking, doing away with the need for adjusting individual parameters in BIOS.
Earlier in the year, XPG over-clocked the SPECTRIX D80 to 5531MHz in a liquid-nitrogen-cooled configuration to show the amazing potential of the memory module.
For more reliability and dependability, the module uses high-quality chips chosen through a strict selection process, while its 10-layer PCB offers improved signaling quality and stability, even when operating at high speeds or under heavy loads.