G.Skill Trident Z5 32GB (2x16GB) 6000MHz CL36 DDR5 Black
F5-6000J3636F16GX2-TZ5K | G.SkillThis product has been discontinued
Features
Trident Z5
Trident Z5 series DDR5 memory is the latest G.SKILL flagship memory kits designed for ultra-high extreme performance on next-gen DDR5 platforms. Featuring a sleeker and streamlined aluminium heatspreader design, available in metallic silver or matte black, the Trident Z5 series DDR5 memory is the ideal choice for gamers, overclockers, content creators, and enthusiasts to build a high-performance system.
Blazing Fast DDR5 Extreme Performance
Ushering in a new era of memory performance, the Trident Z5 brings unparalleled data transfer speeds compared to the previous generation of DDR4 memory. Engineered to the highest performance and quality standards, each Trident Z5 memory module is created from high-quality, hand-screened DDR5 ICs to achieve extreme memory performance on next-gen DDR5 platforms.
Extreme Memory Performance with 12th Gen Intel® Core™ CPU & Z690 Platform
G.SKILL is dedicated to develop ever-faster extreme overclocking memory on each new Intel platform generation. Developed and optimized on the latest 12th Gen Intel® Core™ processors and Z690 chipset platform, Trident Z5 taps into the speed potential of DDR5 to bring a whole new level of performance to worldwide gamers, overclockers, and enthusiasts.
Premium Dual-Texture Heatspreader Design
The all-new Trident Z5 family incorporates hypercar elements into the iconic Trident heatspreader design, creating a sleek and futuristic exterior. Featuring a black brushed-aluminium strip inset into a metallic silver or matte black body, and topped with a sleek black top bar, the Trident Z5 is ideal for any PC build themes.
Revolutionary Performance
Designed to fully utilize the faster frequency speed and boost data transfer rate, each DDR5 IC is implemented with twice the amount of banks and bank groups, as well as a doubled burst length, at 32 banks across 8 banks with a burst length of 16. Combined with a module layout comprised of two 32-bit sub-channels, DDR5 memory is capable of delivering more data than DDR4.
All-New Power Management Design
Each DDR5 memory module is built with an on-board PMIC (power management integrated circuit) chip, allowing better granular power control and more reliable power delivery to improve signal integrity at high frequency speeds. Ultimately, ensuring the highest level of system stability for gaming and for work.
Engineered for the Ultimate DDR5 Experience
Each and every Trident Z5 memory kit is tested under G.SKILL’s rigorous validation process to ensure the best-in-class reliability and compatibility across the widest range of motherboards.
XMP 3.0 Support
Just set and go. Programmed with the latest Intel XMP 3.0 profiles, the only thing between you and extreme performance is a simple setting. Additionally, XMP 3.0 enables two customisable user-defined profiles to be saved in the memory module via BIOS on supported motherboards, so your fine-tuned memory settings go wherever the modules go.
Limited Lifetime Warranty
All G.SKILL memory products come with a limited lifetime warranty.
Specifications
Model Number | F5-6000J3636F16GX2-TZ5K |
Memory Type | DDR5 |
Capacity | 32GB (16GB x 2) |
Multi-Channel Kit | Dual Channel Kit |
Tested Speed (XMP) | 6000 MT/s |
Tested Latency (XMP) | 36-36-36-96 |
Tested Voltage (XMP) | 1.35V |
Registered / Unbuffered | Unbuffered |
Error Checking | Non-ECC |
SPD Speed (Default) | 4800 MT/s |
SPD Voltage (Default) | 1.10V |
Fan Included | No |
Warranty | Limited Lifetime |
Features | Intel XMP 3.0 (Extreme Memory Profile) Ready |
Additional Notes | For best system stability, please use memory modules from the same memory kit only. Please do not install memory modules from different kits, as it may result in system stability issues. The memory kit will boot at the SPD speed when BIOS settings are at default. Enable XMP/DOCP/A-XMP profile in the BIOS to reach up to the rated XMP overclock speed of the memory kit. Reaching the rated XMP overclock speed and system stability depends on the capability of the motherboard & CPU. |