Micron MTA72ASS8G72LZ-2G9D1 64GB RAM Pc4-23400 DDR4 2933mhz Ecc Reg

Capacity: 64GB

The Benefits of a 64GB Capacity

1. Increased Performance

Having a capacity of 64GB allows for faster and more efficient performance. With larger storage, the Micron MTA72ASS8G72LZ-2G9D1 DDR4 can handle more data simultaneously, resulting in improved multitasking capabilities. Whether you are running multiple applications or working on resource-intensive tasks, the increased capacity ensures smooth and uninterrupted performance.

2. Enhanced Multitasking

With a 64GB capacity, this DDR4 module is ideal for demanding tasks that require substantial memory allocation. It allows you to run memory-intensive applications such as video editing software, virtual machines, or complex simulations without experiencing any lag or slowdown. The ability to handle large workloads means you can seamlessly switch between different tasks without compromising on speed or efficiency.

3. Future-Proofing Your System

Investing in a 64GB capacity DDR4 module ensures that your system is future-proofed. As technology advances and software becomes more resource-intensive, having ample memory will become increasingly important. By opting for a larger capacity now, you can ensure that your system remains capable of handling the demands of future applications and operating systems, saving you from having to upgrade in the near future.

4. Improved Gaming Experience

For gamers, having a 64GB capacity DDR4 module can significantly enhance the gaming experience. Modern games often require substantial memory to run smoothly and provide detailed graphics. With 64GB at your disposal, you can enjoy seamless gameplay, faster loading times, and improved overall performance. Whether you are playing the latest AAA titles or streaming your gaming sessions, this DDR4 module's capacity ensures you can keep up with the demands of today's games.

5. Efficient Data Processing

The 64GB capacity of the Micron MTA72ASS8G72LZ-2G9D1 DDR4 is particularly useful for professionals who work with large datasets or engage in data-intensive tasks like scientific modeling or data analysis. The increased capacity allows for faster data processing, reducing the time required to handle complex calculations or perform extensive data manipulations. This leads to increased productivity and shorter turnaround times for projects.

Speed: 2933MHz

The Benefits of 2933MHz Speed

1. Faster Data Transfer

The 2933MHz speed of the Micron MTA72ASS8G72LZ-2G9D1 DDR4 ensures faster data transfer rates. This means that data can be accessed, read, and written at higher speeds, resulting in improved overall system performance. Whether you are transferring files, loading applications, or working with large datasets, the higher speed enables quicker completion of tasks and reduces waiting times.

2. Enhanced System Responsiveness

With a speed of 2933MHz, the DDR4 module significantly improves system responsiveness. Applications launch faster, and tasks are executed more swiftly, leading to a seamless user experience. Whether you are browsing the web, editing documents, or using resource-intensive software, the increased speed ensures a smooth and snappy system response.

3. Improved Gaming Performance

For gamers, the 2933MHz speed is particularly beneficial. It allows for faster loading times, smoother gameplay, and reduced input lag. Games can take full advantage of the higher speed to deliver more frames per second (FPS) and ensure a more immersive gaming experience. Whether you are playing competitive online games or exploring expansive open-world environments, the increased speed enhances both visual fidelity and gameplay fluidity.

4. Efficient Multitasking

The higher speed of 2933MHz enables more efficient multitasking. With faster data transfer rates, the Micron MTA72ASS8G72LZ-2G9D1 DDR4 can handle simultaneous tasks with ease. This means you can run multiple applications, switch between them seamlessly, and experience minimal slowdowns or lag. Whether you are a professional working on resource-intensive projects or a casual user juggling multiple tasks, the increased speed ensures smooth multitasking capabilities.

5. Future Compatibility

By opting for a DDR4 module with a speed of 2933MHz, you are ensuring future compatibility with upcoming technologies and software advancements. As technology progresses, higher-speed memory modules will become more prevalent and essential for optimal performance. Investing in a module with this speed now ensures that your system will be ready to handle the demands of future software and applications without requiring immediate upgrades.

Technology: SDRAM

The Benefits of SDRAM Technology

1. High Bandwidth

SDRAM (Synchronous Dynamic Random Access Memory) technology offers high bandwidth, allowing for fast data transfer rates. This ensures that data can be accessed quickly by the processor, resulting in improved overall system performance. Whether you are running resource-intensive applications or performing complex calculations, the high bandwidth of SDRAM technology helps to maintain smooth and efficient operations.

2. Low Latency

SDRAM technology is known for its low-latency characteristics. Low latency means that data can be accessed and written with minimal delay, resulting in faster response times and reduced waiting periods. This is especially important for tasks that involve frequent data access or real-time operations. With SDRAM technology, you can enjoy a more responsive system, whether you are browsing the web, editing documents, or playing games.

3. Power Efficiency

SDRAM technology is designed to be power-efficient. It consumes less power compared to other memory technologies, making it an ideal choice for laptops, mobile devices, and energy-conscious systems. The lower power consumption leads to longer battery life, reduced heat generation, and overall improved system efficiency. With SDRAM technology, you can enjoy a balance between performance and power savings.

4. Compatibility

SDRAM technology is widely adopted and compatible with various systems and platforms. Whether you are building a custom PC or upgrading an existing one, choosing a DDR4 module with SDRAM technology ensures compatibility with most motherboards and processors. This makes it easier to find compatible components and simplifies the upgrade process. With SDRAM technology, you can ensure a seamless integration into your system.

5. Reliability

SDRAM technology has been refined over the years and has proven to be highly reliable. It undergoes rigorous testing and quality control measures to ensure consistent performance and longevity. Choosing a DDR4 module with SDRAM technology provides peace of mind knowing that you are investing in a reliable and durable memory solution that will withstand long hours of usage and demanding tasks.

Ecc: 1

The Benefits of Ecc (Error Correcting Code)

1. Improved Data Integrity

ECC (Error Correcting Code) is designed to detect and correct errors that may occur during data transmission or storage. By implementing ECC, the Micron MTA72ASS8G72LZ-2G9D1 DDR4 ensures improved data integrity. It can identify and fix single-bit errors in real-time, preventing potential data corruption or loss. This is particularly important for critical applications or systems that handle sensitive data, where even a minor error can have significant consequences.

2. Enhanced System Stability

ECC memory contributes to enhanced system stability by reducing the likelihood of crashes, system freezes, or unexpected behavior. By detecting and correcting errors, ECC minimizes the impact of memory-related issues on system performance. This is crucial for servers, workstations, and other mission-critical systems that require uninterrupted operation. With ECC memory, you can rely on a stable and reliable system.

3. Long-Term Reliability

ECC memory is known for its long-term reliability. By actively monitoring and correcting errors, it helps to prolong the lifespan of the memory module and the overall system. The ability to prevent errors from propagating ensures that data remains intact and prevents potential damage to critical files or applications. With ECC memory, you can trust that your system will maintain its performance and reliability over an extended period.

4. Data Integrity Verification

ECC memory provides an additional layer of data integrity verification. It performs regular checks on stored data to ensure its accuracy and reliability. This is particularly important in applications where data integrity is paramount, such as financial transactions, scientific research, or database management. With ECC memory, you can have confidence in the integrity of your data and minimize the risk of errors or inconsistencies.

5. Compliance Requirements

Certain industries or regulatory bodies require the use of ECC memory in specific applications or systems due to their strict data integrity standards. By opting for a DDR4 module with ECC support, you can ensure compliance with these requirements and avoid potential penalties or legal issues. Whether you are working in healthcare, finance, or any other industry that deals with sensitive data, ECC memory provides the necessary safeguards to meet regulatory standards.

Registered: 1

The Benefits of Registered Memory

1. Increased Memory Capacity

Registered memory, also known as buffered memory, allows for higher memory capacity compared to unbuffered memory. By incorporating a register between the memory controller and the memory modules, registered memory can support larger memory configurations without compromising stability or performance. This is particularly beneficial for servers and workstations that require extensive memory capacity to handle demanding applications and multiple users.

2. Improved Signal Integrity

Registered memory helps to improve signal integrity by reducing the electrical load on the memory controller. The register acts as a buffer, isolating the memory modules from the direct control of the memory controller. This reduces signal noise and interference, resulting in more reliable data transmission and improved system stability. With registered memory, you can ensure that your data is transmitted accurately and without errors.

3. Enhanced System Performance

By reducing the electrical load on the memory controller, registered memory enables improved system performance. The reduced signal noise and interference result in faster data transfer rates and lower latency. This leads to improved overall system responsiveness, faster application loading times, and smoother multitasking capabilities. Whether you are running resource-intensive applications or handling large datasets, registered memory ensures optimal performance.

4. Scalability

Registered memory offers better scalability compared to unbuffered memory. The use of a register allows for larger memory configurations without compromising stability or performance. This makes registered memory ideal for systems that require future expansion or accommodate growing demands. Whether you are planning to upgrade your existing system or building a new one, registered memory provides the necessary scalability to meet your evolving needs.

5. Compatibility

Registered memory is compatible with most server-grade motherboards and processors. It is widely supported by various hardware manufacturers, ensuring seamless integration into your system. By choosing a DDR4 module with registered memory support like the Micron MTA72ASS8G72LZ-2G9D1, you can be confident that it will work efficiently with your existing hardware components. This compatibility simplifies the upgrade process and reduces compatibility-related issues.

Rx: 4

The Benefits of Rx (Receiving) Channels

1. Increased Data Bandwidth

The Micron MTA72ASS8G72LZ-2G9D1 DDR4 module features 4 Rx (Receiving) channels. This allows for increased data bandwidth, enabling higher data transfer rates and faster overall system performance. With more receiving channels, the DDR4 module can handle larger amounts of data simultaneously, resulting in improved multitasking capabilities and reduced data bottlenecks.

2. Enhanced System Responsiveness

The 4 Rx channels contribute to enhanced system responsiveness by allowing for faster data retrieval and processing. The increased bandwidth ensures that data can be accessed and read more quickly by the processor, resulting in reduced waiting times and improved overall system performance. Whether you are launching applications, browsing the web, or working with large datasets, the enhanced responsiveness leads to a smoother user experience.

3. Improved Memory Efficiency

With 4 Rx channels, the DDR4 module achieves improved memory efficiency. The additional channels distribute the workload across multiple paths, reducing the strain on individual channels and enhancing overall memory utilization. This results in optimized memory performance and improved system efficiency. Whether you are running memory-intensive applications or engaging in data-intensive tasks, the increased memory efficiency ensures optimal performance.

4. Scalability

The presence of 4 Rx channels provides scalability for future memory upgrades or system expansions. As technology advances and memory demands increase, having multiple receiving channels allows for easier integration of additional memory modules. This scalability ensures that your system can adapt to changing requirements without requiring a complete overhaul. Whether you are planning for future upgrades or need the flexibility to expand your memory capacity, the 4 Rx channels provide the necessary scalability.

5. Reliable Data Transmission

The 4 Rx channels contribute to reliable data transmission by reducing the risk of data errors or bottlenecks. The additional channels offer redundancy and ensure that data can be received and processed without interruption. This is particularly important for critical applications or systems that handle sensitive data, where data integrity is paramount. With the 4 Rx channels, you can trust that your data will be transmitted accurately and reliably.