MTA18ASF2G72PZ-2G6B1 Micron 16GB DDR4-2666MHz ECC Registered Memory Module

Capacity: 16GB

The Micron MTA18ASF2G72PZ-2G6B1 DRAM module offers a substantial capacity of 16GB. This generous amount of memory is highly advantageous for users who require high-performance computing capabilities. Whether you are a professional working with complex software applications, a gamer seeking seamless gameplay, or a content creator dealing with resource-intensive tasks, the 16GB capacity ensures that your system can handle heavy workloads without compromising performance.

Enhanced Multitasking

With 16GB of capacity, you can effortlessly handle multiple applications simultaneously. This allows for efficient multitasking without experiencing slowdowns or system crashes. You can seamlessly switch between resource-hungry programs such as video editing software, virtual machines, and graphic design tools, ensuring a smooth workflow and increased productivity.

Smooth Gaming Experience

Gamers will particularly appreciate the 16GB capacity as it provides ample space for storing game files and running demanding titles without any lag or stuttering. With this module installed in your system, you can enjoy immersive gaming experiences with high-resolution graphics, realistic physics simulations, and fast loading times. Say goodbye to frustrating frame drops and hello to uninterrupted gameplay.

Future-Proofing

Investing in a 16GB capacity module ensures that your system is future-proofed to handle upcoming software advancements and memory requirements. As applications become more demanding and memory-intensive, having ample capacity will allow your system to keep up with evolving technology trends without the need for immediate upgrades.

Speed 2666MHz

The Micron MTA18ASF2G72PZ-2G6B1 DRAM module boasts a blazing-fast speed of 2666MHz. This high-speed performance is essential for users who demand quick data access, smooth multitasking, and superior overall system responsiveness.

Seamless Multitasking

The 2666MHz speed enables seamless multitasking by minimizing delays and ensuring smooth transitions between different applications. You can switch between resource-intensive programs, such as video editing software, 3D modeling tools, and music production suites, without experiencing any lag or slowdowns. This ability to handle multiple tasks simultaneously enhances productivity and efficiency.

Enhanced Gaming Performance

Gamers will appreciate the 2666MHz speed as it significantly improves gaming performance. The high-speed data transfer allows for faster loading times, smoother frame rates, and reduced input lag. This means you can enjoy immersive gaming experiences with stunning graphics and responsive controls, giving you a competitive edge in online multiplayer games.

Optimized Content Creation

The 2666MHz speed is particularly beneficial for content creators who work with memory-intensive applications such as video editing software, graphic design tools, and 3D rendering suites. With faster data access, you can seamlessly edit high-resolution videos, manipulate complex images, and render intricate 3D models without any noticeable delays. This optimizes your creative workflow and allows for more efficient project delivery.

Efficient Virtualization

For professionals involved in virtualization tasks, such as running virtual machines or creating virtual environments, the 2666MHz speed is invaluable. The fast data transfer ensures smooth operations within virtual environments, enabling you to allocate resources effectively and ensure optimal performance for each virtual machine. This enhances your productivity and streamlines your virtualization workflow.

CAS Latency CL9

The Micron MTA18ASF2G72PZ-2G6B1 DRAM module offers a CAS latency of CL9. CAS latency represents the delay between memory controller requests and the actual availability of data from the memory module. A lower CAS latency results in faster data retrieval, which positively impacts overall system performance.

Enhanced Multitasking Efficiency

A lower CAS latency is particularly beneficial for multitasking scenarios. When you are running multiple applications simultaneously, the CL9 CAS latency helps minimize delays between memory requests, ensuring smooth transitions between different tasks. This allows for efficient multitasking without experiencing noticeable slowdowns or performance bottlenecks.

Gaming Advantage

Gamers can benefit from the CL9 CAS latency as it contributes to faster data retrieval during gameplay. With reduced latency, your system can quickly access game files, textures, and other assets, resulting in shorter loading times and smoother gameplay. This helps maintain a competitive edge by providing a seamless gaming experience with minimal interruptions.

Optimized Content Creation

Content creators working with resource-intensive software tools will appreciate the CL9 CAS latency for its impact on their creative workflow. When editing high-resolution images or videos or applying complex effects, the lower latency ensures that your system can quickly retrieve and process data. This allows for real-time editing and rendering, enhancing your productivity and streamlining your creative process.

Efficient Virtualization

Virtualization tasks often involve running multiple virtual machines simultaneously or creating virtual environments. The CL9 CAS latency plays a vital role in ensuring efficient operations within these virtual environments. By minimizing delays between requests and data availability, the lower latency enhances resource allocation and overall virtualization performance.

Single Rank

The Micron MTA18ASF2G72PZ-2G6B1 DRAM module features a single rank configuration. The rank refers to the organization of memory chips on the module, and a single rank configuration offers several advantages in terms of compatibility, stability, and performance.

Enhanced Compatibility

A single rank configuration ensures compatibility with a wide range of systems, including desktops, workstations, and servers. This makes the Micron MTA18ASF2G72PZ-2G6B1 DRAM module suitable for various computing environments, allowing you to upgrade or build systems without worrying about compatibility issues.

Stability and Reliability

Single rank modules tend to be more stable and reliable compared to their dual rank counterparts. The simplified memory organization reduces the complexity of addressing and accessing data, resulting in improved stability and fewer potential points of failure. This ensures consistent performance and minimizes the risk of system crashes or errors.

Performance Optimization

The single rank configuration can optimize memory performance by reducing command overhead. With a simplified memory organization, your system can access data more efficiently, resulting in faster overall performance. This is particularly beneficial for memory-intensive tasks such as gaming, content creation, and virtualization.

High-Speed Performance

The 288-pin configuration allows for high-speed data transfer between the memory module and the motherboard. This enables faster overall system performance by reducing data bottlenecks and ensuring efficient communication between components. Whether you are running memory-intensive applications or demanding games, the high-speed performance enhances your user experience.