MTA9ASF1G72PZ-2G9J3 Micron 8GB 2933MHZ Pc4-23400 Ecc Single Rank Cl21 Registered Ddr4 Sdram

Capacity: 8GB

The Micron MTA9ASF1G72PZ-2G9J3 DDR4 SDRAM is a powerful memory module with a capacity of 8GB. This feature is crucial for users who require a sufficient amount of memory to handle demanding tasks and applications. Whether you are a gamer, a content creator, or a professional working on resource-intensive software, having an ample amount of memory is essential for smooth and efficient performance.

Improved Multitasking

With 8GB of capacity, this DDR4 SDRAM allows you to run multiple applications simultaneously without experiencing any lag or slowdowns. You can edit videos, browse the internet, stream music, and work on documents without worrying about your system's performance being compromised. The increased capacity ensures that your computer has enough memory to handle all your tasks efficiently.

Enhanced Gaming Experience

Gamers will also benefit greatly from the 8GB capacity of this memory module. Modern games often require significant amounts of memory to run smoothly and deliver stunning graphics. With 8GB of capacity, you can enjoy a seamless gaming experience without any stuttering or frame drops. The additional memory allows for faster loading times and smoother gameplay, giving you a competitive edge in online multiplayer games.

Efficient Content Creation

If you are a content creator working with applications like Adobe Photoshop, Premiere Pro, or AutoCAD, the 8GB capacity of this DDR4 SDRAM is ideal for your needs. These software programs demand considerable memory resources to render complex designs, apply effects, and handle large file sizes. The 8GB capacity ensures that your workflow remains smooth and uninterrupted, enabling you to complete your projects efficiently.

Future-Proofing

Investing in a memory module with 8GB capacity is a smart choice for future-proofing your system. As software and applications continue to evolve, their memory requirements also increase. By opting for 8GB, you ensure that your system remains capable of handling the latest software updates and versions without the need for immediate upgrades.

Compatibility

This 8GB DDR4 SDRAM module is compatible with a wide range of systems, including desktop computers and workstations. It adheres to industry standards, making it easy to install and integrate into your existing setup. Whether you have a Windows or Mac-based system, this memory module will seamlessly fit into your computer, providing the desired performance boost.

Expandability

The Micron MTA9ASF1G72PZ-2G9J3 DDR4 SDRAM with 8GB capacity allows for expandability. If your needs change in the future and you require more memory, you can easily add additional modules to increase the overall capacity of your system. This flexibility ensures that your investment in this memory module is future-proof and adaptable to your evolving requirements.

Speed: 2933MHZ

The speed at which a memory module operates plays a crucial role in overall system performance. The Micron MTA9ASF1G72PZ-2G9J3 DDR4 SDRAM boasts a speed of 2933MHz, providing users with a significant performance boost.

Fast Data Transfer

With a speed of 2933MHz, this memory module facilitates fast data transfer between the CPU and RAM. This high-speed data transfer ensures that your system can quickly access and retrieve information from memory, resulting in reduced loading times for applications and files. Whether you're launching software, opening large documents, or loading games, the fast speed of this memory module ensures a snappy and responsive experience.

Smooth Multitasking

The 2933MHz speed of this DDR4 SDRAM is particularly beneficial for multitasking. When running multiple applications simultaneously, the high-speed memory enables rapid context switching between tasks. This allows you to seamlessly switch between programs without experiencing any noticeable lag or delays. Whether you're editing videos while running a virtual machine or working on complex spreadsheets with numerous calculations, the fast speed ensures smooth multitasking performance.

Optimized Gaming Performance

Gamers will appreciate the 2933MHz speed of this memory module as it enhances gaming performance. The high-speed data transfer ensures that game assets are loaded quickly, reducing in-game loading times and providing a smoother gaming experience. Additionally, the fast speed enables faster rendering of graphics and textures, resulting in improved visual quality and realism.

Overclocking Potential

Enthusiast users who enjoy pushing their systems to the limit will appreciate the 2933MHz speed of this DDR4 SDRAM. The high speed provides a solid foundation for overclocking, allowing users to potentially achieve even higher speeds by adjusting relevant system settings. Overclocking can result in significant performance gains for tasks that heavily rely on memory bandwidth, such as video editing and 3D rendering.

Compatibility

This memory module's 2933MHz speed is compatible with systems that support DDR4 memory running at this frequency. It is crucial to ensure that your motherboard and CPU are compatible with this speed to fully benefit from its performance advantages. Many modern systems are designed to work optimally with high-speed memory modules, making this speed an excellent choice for users seeking top-notch performance.

Efficient Power Consumption

Despite the high speed, the Micron MTA9ASF1G72PZ-2G9J3 DDR4 SDRAM with 2933MHz speed is designed to consume power efficiently. It operates at lower voltage levels compared to previous generations of memory, resulting in reduced power consumption. This not only contributes to energy savings but also helps in maintaining optimal system temperatures.

Rank: Single Rank

The rank of a memory module refers to the organization of its memory chips on the module's circuit board. The Micron MTA9ASF1G72PZ-2G9J3 DDR4 SDRAM features a single rank design, which offers several benefits and is essential for users seeking optimal performance.

Improved Memory Performance

Single-rank memory modules offer improved memory performance compared to dual-rank or quad-rank modules. The single rank design allows for faster data access and improved overall system responsiveness. This is particularly beneficial when running memory-intensive applications or performing tasks that require frequent access to large amounts of data.

Better Compatibility

Single-rank memory modules have better compatibility with a wider range of systems compared to modules with multiple ranks. They are more likely to work seamlessly with various motherboards and CPUs, ensuring hassle-free installation and compatibility. Whether you have a consumer-grade desktop or a high-end workstation, this single-rank DDR4 SDRAM will likely be compatible with your system.

Overclocking Potential

The single rank design of this memory module also enhances its overclocking potential. Overclocking involves increasing the speed and performance of your system beyond the manufacturer's specifications. Single-rank modules are generally more stable when overclocked, allowing users to push their systems further without experiencing stability issues. This makes the Micron MTA9ASF1G72PZ-2G9J3 DDR4 SDRAM an excellent choice for users looking to maximize their system's performance through overclocking.

Memory Capacity

Single-rank memory modules typically offer higher memory capacities compared to dual-rank or quad-rank modules. This means that you can achieve a higher total memory capacity with single-rank modules if your system supports it. The Micron MTA9ASF1G72PZ-2G9J3 DDR4 SDRAM with its single rank design and 8GB capacity provides an optimal balance of performance and capacity for most users.

Server and Workstation Applications

Single-rank memory modules are commonly used in server and workstation applications where stability and compatibility are crucial. These systems often require large amounts of memory to handle intensive workloads, making single-rank modules an ideal choice. The Micron MTA9ASF1G72PZ-2G9J3 DDR4 SDRAM's single rank design ensures smooth operation in server environments, supporting critical tasks such as data processing, virtualization, and database management.

Ecc: 1

Error Correcting Code (ECC) is a feature found in certain memory modules, including the Micron MTA9ASF1G72PZ-2G9J3 DDR4 SDRAM. ECC provides an additional layer of data integrity and reliability, making it an essential feature for users who prioritize system stability and protection against data corruption.

Data Integrity

The ECC feature in this memory module helps detect and correct errors that may occur during data storage and retrieval processes. By utilizing additional parity bits, ECC can identify and fix single-bit errors automatically. This ensures that the data stored in memory remains accurate and consistent, minimizing the risk of data corruption or loss.

System Stability

ECC memory is particularly beneficial for systems that require high levels of stability and reliability. Workstations, servers, and systems used for critical tasks can greatly benefit from ECC memory as it reduces the likelihood of system crashes, application errors, or unexpected system behavior. This is especially important in environments where data integrity and system uptime are crucial, such as financial institutions, scientific research facilities, or enterprise-level businesses.

Improved Performance

Contrary to popular belief, ECC memory does not negatively impact system performance. While ECC does add an additional layer of error detection and correction, modern memory controllers and processors are designed to handle ECC operations efficiently. The impact on system performance is negligible for most users, making ECC memory an attractive option for those who prioritize data integrity without sacrificing performance.

Data Security

ECC memory also contributes to data security by protecting against potential security breaches. By ensuring the accuracy and integrity of stored data, ECC memory helps prevent unauthorized access or modification of critical information. This is particularly important in industries where data security is paramount, such as healthcare or government sectors.

Long-Term Cost Savings

While ECC memory modules may have a slightly higher upfront cost compared to non-ECC modules, they can result in long-term cost savings. The added protection against data corruption and system failures can prevent costly downtime, data recovery efforts, or potential loss of critical information. Investing in ECC memory upfront can save you significant expenses associated with system maintenance and data recovery down the line.

Cas Latency: CL21

Cas Latency (CL) is an important timing parameter that measures the delay between the memory module receiving a command and delivering the requested data. The Micron MTA9ASF1G72PZ-2G9J3 DDR4 SDRAM features a Cas Latency of CL21, which offers several benefits for users seeking optimal memory performance.

Improved System Responsiveness

A lower Cas Latency, such as CL21, enhances system responsiveness by reducing the delay in accessing data from memory. This means that your system can quickly retrieve information and respond to commands, resulting in snappier performance. Whether you are launching applications, loading large files, or navigating through complex documents, the lower Cas Latency of this memory module ensures a smoother and more responsive user experience.

Optimal Compatibility

The CL21 Cas Latency of this DDR4 SDRAM is designed to provide optimal compatibility with a wide range of systems. It strikes a balance between performance and compatibility, ensuring that the memory module works seamlessly with various motherboards and CPUs. This compatibility is crucial for hassle-free installation and reliable operation.

Overclocking Potential

A lower Cas Latency can enhance the overclocking potential of a memory module. Overclocking involves running the memory module at higher speeds than the manufacturer's specifications. The lower Cas Latency of CL21 allows for tighter timings and increased stability when pushing the module's performance limits. This makes the Micron MTA9ASF1G72PZ-2G9J3 DDR4 SDRAM an excellent choice for users who want to maximize their system's performance through overclocking.

Memory Performance

The Cas Latency directly impacts memory performance, particularly in tasks that require frequent access to data. Applications such as video editing, 3D rendering, or complex simulations benefit from lower Cas Latency as it reduces the time it takes to retrieve data from memory. The CL21 Cas Latency of this memory module ensures optimal performance for memory-intensive tasks, allowing for faster data processing and improved overall system efficiency.

Enthusiast-Level Performance

The CL21 Cas Latency makes the Micron MTA9ASF1G72PZ-2G9J3 DDR4 SDRAM a suitable choice for users seeking enthusiast-level performance. Enthusiast users often prioritize the smallest performance gains, and a lower Cas Latency can contribute to achieving those gains. Whether you're a gamer, content creator, or power user, the CL21 Cas Latency ensures that your system operates at its peak potential.

Registered: 1

Registered memory, also known as buffered memory, is a type of memory module that features an additional register between the memory module and the system's memory controller. The Micron MTA9ASF1G72PZ-2G9J3 DDR4 SDRAM is registered memory with a registered count of 1, offering several advantages for users seeking stability and reliability.

Improved System Stability

Registered memory modules provide increased stability by reducing electrical load on the system's memory controller. The register acts as a buffer, allowing for better signal integrity and reducing the chances of signal degradation or noise interference. This enhanced stability ensures that your system operates reliably, even under heavy workloads or in demanding environments.

Support for Higher Memory Capacities

Registered memory is commonly used in systems that require higher memory capacities. By adding the register between the memory module and the memory controller, registered memory modules can support larger amounts of memory without compromising stability or performance. The Micron MTA9ASF1G72PZ-2G9J3 DDR4 SDRAM with its registered count of 1 is an excellent choice for users who require a high memory capacity for tasks such as virtualization, server applications, or large-scale data processing.

Compatibility with Server and Workstation Environments

Registered memory is particularly prevalent in server and workstation environments where stability and reliability are paramount. These systems often operate under heavy workloads and require large memory capacities to handle complex tasks. The Micron MTA9ASF1G72PZ-2G9J3 DDR4 SDRAM's registered count of 1 ensures compatibility with server and workstation architectures, allowing for optimal performance in demanding environments.

ECC Support

Registered memory modules typically support ECC functionality, providing an additional layer of error detection and correction. ECC works in conjunction with the register to enhance data integrity and protect against potential data corruption. This combination of registered memory and ECC support makes the Micron MTA9ASF1G72PZ-2G9J3 DDR4 SDRAM an ideal choice for users who prioritize system stability, reliability, and data integrity.

Longer Signal Transmission Distance

The register in registered memory modules enables longer signal transmission distances compared to unbuffered modules. This makes registered memory ideal for systems with multiple memory modules or larger physical dimensions. The increased signal strength provided by the register ensures that data can be reliably transmitted over longer distances without signal degradation, improving overall system performance and stability.

Pin Type: 288-pin DIMM

The pin type of a memory module refers to the number and arrangement of pins on the module's connector. The Micron MTA9ASF1G72PZ-2G9J3 DDR4 SDRAM utilizes a 288-pin DIMM configuration, which offers several benefits for users seeking compatibility and ease of installation.

Widespread Compatibility

The 288-pin DIMM configuration is the standard form factor for DDR4 memory modules