G.SKILL Announces New DDR4 for AMD Ryzen Threadripper
Subject: Memory | August 10, 2017 - 03:31 PM | Jeremy Hellstrom
Tagged: Zen, Threadripper, ryzen, amd, G.Skill, flare x, quad channel
G.SKILL have launched several new kits specifically designed for Threadripper systems, all under the name of Flare X. There are three 32GB kits and a single massive 128GB kit to choose from, all quad channel and all tested for compatibility with Threadripper.
Taipei, Taiwan (10 Aug 2017) – G.SKILL International Enterprise Co., Ltd., the world’s leading manufacturer of extreme performance memory and gaming peripherals, announces all-new DDR4 specifications and expanding the Flare X series, designed for AMD processors and platforms. Compatible with the new Ryzen™ Threadripper™ processors and AMD X399 chipset motherboards, these new DDR4 specifications are designed to achieve high frequency at DDR4-3600MHz 32GB (8GBx4), as well as a massive total capacity at DDR4-2933MHz 128GB (16GBx8). Included in the mix of new quad-channel DDR4 memory kits are DDR4-3200MHz CL14 32GB (8GBx4) and DDR4-3466MHz CL16 32GB (8GBx4).
Ultra-High Frequency Flare X Series Memory Kits at DDR4-3600MHz 32GB (8GBx4)
With improved overclocking performance on the latest AMD Ryzen™ Threadripper™ processors on the X399 chipset, G.SKILL is announcing the DDR4-3600MHz CL16-18-18-38 with 32GB (8GBx4) total capacity running in quad-channel mode, under the Flare X series. Tested for maximum stability, this kit’s frequency speed marks the fastest memory kit ever released thus far for an AMD platform.
Massive Kit Capacity, No Compromises: DDR4-2933MHz 128GB (16GBx8)
One of the advantages introduced by the AMD X399 platform is the increase to 8 memory slots on AMD platforms, allowing the support for massive 128GB capacity kits running in quad-channel mode. Tested using the highest standards for memory stability on AMD Ryzen™ Threadripper™ platforms, G.SKILL announces the Flare X series DDR4-2933MHz CL14-14-14-34 128GB (16GBx8) memory kit running at 1.35V, perfect for systems requiring high-capacity, high-bandwidth memory kits.