Product Description
Elevate your computing experience with the Kingston DDR4 memory module, specifically designed for your HP Workstation Z2 G5. This high-performance 8 GB DIMM module operates at an impressive speed of 3200 MHz, ensuring that your workstation delivers the power and efficiency needed for demanding tasks such as graphic design, video editing, and complex data analysis.
The Kingston DDR4 memory module is crafted for ultimate durability and reliability, featuring unbuffered ECC technology that enhances data integrity by detecting and correcting internal data corruption. This makes it an ideal choice for professional environments where consistent performance is paramount. With a low voltage requirement of just 1.2 V, this memory module not only helps to reduce heat generation but also contributes to overall energy efficiency, making it both an economical and environmentally friendly choice.
- Capacity: 8 GB, providing ample memory for multitasking and heavy applications.
- Speed: Operates at 3200 MHz to handle intensive workloads smoothly and efficiently.
- Type: DDR4 SDRAM, the latest memory standard that enhances performance compared to previous generations.
- Form Factor: DIMM 288-pin, designed specifically to fit your HP Workstation Z2 G5 seamlessly.
- Unbuffered ECC: Ensures data integrity with error correction capabilities, vital for mission-critical tasks.
- Voltage: Low 1.2 V operation minimizes power consumption and heat generation.
- Compatibility: Optimally engineered for HP Workstation Z2 G5, ensuring peak performance.
The Kingston DDR4 memory module is the perfect upgrade for enhancing your HP Workstation Z2 G5's speed and reliability. Whether you're an artist pushing the limits of creativity, an engineer analyzing large datasets, or a gamer seeking a smoother experience, this memory module provides the performance required to excel. Invest in Kingston quality and achieve new heights in productivity and performance. Experience the difference with Kingston – your trusted partner in enhancing computing power.