Description
Kingston Fury Beast 16GB DDR5 Memory, 5200Mhz Speed, Non ECC DIMM, Intel XMP 3.0-Ready and Certified, CL40 CAS Latency, 288 Pin, Single Module | KF552C40BB-16
Kingston FURY Beast DDR5 Memory16GB capacities up to 6000MHz
Kingston FURY™ Beast DDR5 memory brings the latest cutting-edge technology for next-gen gaming platforms. Taking speed, capacity and reliability even further, DDR5 arrives with an arsenal of enhanced features, like on-die ECC (ODECC) for improved stability at extreme speeds, dual 32-bit subchannels for increased efficiency and an on-module power management integrated circuit (PMIC) to provide juice where it’s needed most.
Superior speed advancements with double the banks from 16 to 32 and double the burst length from 8 to 16 take DDR5 memory, your gaming experience and your overall system applications to the next level of performance.
Whether you’re pushing the limits in your gaming with the most extreme settings, live streaming at 4K+ or pushing large animations and 3D rendering, Kingston FURY Beast DDR5 memory is the level-up needed, while seamlessly bridging style and unleashing performance.
Additionally, it utilises Intel® XMP 3.0, a new overclock spec that includes two customisable profiles for speeds and timings.
Features
- Greater performance starting at 4800MHz
- Improved stability for overclocking
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Increased efficiency
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Intel® XMP 3.0-Ready and Certified
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Qualified by the world’s leading motherboard manufacturers
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Plug N Play at 4800MHz
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Low-profile heat spreader design
Improved stability for overclocking
On-die ECC (ODECC) helps maintain data integrity to sustain the ultimate performance while you push the limits!
Increased efficiency
Boosted by double the banks and burst length and two independent 32-bit subchannels, DDR5’s exceptional handling of data shines with the latest games, programs and demanding applications.
Intel® XMP 3.0-Ready and Certified
Advanced pre-optimised timings, speed and voltage for overclocking performance and save new user-customisable profiles using a programmable PMIC.