The Newest Generation of Extreme Performance DDR4 is Here!
Building on the strong success of G.SKILL Trident series, Trident Z series represents one of the world’s highest performance DDR4 memory designed for PC enthusiasts and extreme gamers. Using only the best-in-class components and featuring luxurious hair-line finish aluminum heat-spreaders, Trident Z series is the state-of-the-art DDR4 solution that combines performance and beauty for PC enthusiasts and extreme overclockers to build an ultra-fast PC or achieve new overclocking records.
New Level of Ultimate Performance
Designed for PC enthusiasts, overclockers, and extreme gamers, the Trident Z series DDR4 is built with specially screened ICs qualified under the legendary G.SKILL selection process, and rigorously tested for reliability, compatibility, and performance across a wide range of motherboards.
First DDR4 to Reach DDR4-4000MHz XMP Speed & DDR4-5000MHz Overclocking Record
Built for the highest performance, G.SKILL Trident Z series memory is the world’s first to bring DDR4 4000MHz to XMP rated speed on the first launch, as well as the world’s first memory to break the DDR4-5000MHz overclocking world record barrier.
Feel the Luxury
Trident Z series maintains the aggressive fin design for highly efficient heat dissipation, while introducing luxurious hair-line finish aluminum heat-spreaders. Look no further for a memory that combines performance and beauty for building a stylish, modern PC!
Up to 128GB Ultra Capacity
No compromises! These extreme speed memory kits not only come in kits of 4GB and 8GB modules; a series of ultra high speed 16GB modules are also available in Trident Z series. Build your dream supercomputer with up to DDR4 128GB (16GBx8) of ultra-capacity at ultra-high frequencies!
Developed for Ultimate Compatibility and Reliability
All Trident Z DDR4 memory kits are tested with G.SKILL’s rigorous validation process on major performance motherboard brands to ensure the best-in-class reliability and compatibility across the widest selection of motherboards.