Product Description
Elevate your computing experience to new heights with the Kingston DDR5 64 GB RAM module. Designed with cutting-edge technology and efficiency at the forefront, this powerful 288-pin DIMM is perfect for high-performance tasks, whether you’re gaming, video editing, or running intensive applications. The exceptional speed of 4800 MHz ensures smooth multitasking and lightning-fast data processing, making it an essential upgrade for seasoned professionals and tech enthusiasts alike.
Harness the power of advanced memory architecture optimized for next-generation computing. The Kingston DDR5 memory module is not just about performance; it's about reliability and stability too. Featuring error-correcting code (ECC) technology, this RAM module mitigates the risk of data corruption by automatically detecting and correcting common types of internal data corruption. Perfect for servers and workstations, this feature helps maintain data integrity, making it indispensable for mission-critical applications.
- High Capacity: With a massive 64 GB capacity, handle resource-intensive applications effortlessly.
- Increased Speed: Operates at an impressive 4800 MHz, enhancing system responsiveness and speed.
- Registered Memory: Designed for servers and high-end workstations, providing better stability under heavy workloads.
- ECC Technology: Error-Correcting Code improves data reliability by correcting memory errors automatically.
- Low Voltage: Consumes just 1.1 V, helping to reduce power consumption without sacrificing performance.
- Compatibility: Designed to work seamlessly with platforms that support DDR5 memory, ensuring optimal integration.
- 288-Pin DIMM: Standard form factor for easy compatibility with a wide range of motherboards.
Secure your competitive edge in performance with the Kingston DDR5 64 GB RAM module. Its combination of high capacity, speed, and reliability means you can push the limits of productivity, whether at home or in a professional setting. Upgrade your system with Kingston, and experience the difference of next-generation memory technology today.