MTA18ASF2G72PDZ-2G9J1 16GB Micron DDR4 2933Mhz ECC RDIMM

Capacity: 16GB

Benefits of 16GB Capacity

The Micron MTA18ASF2G72PDZ-2G9J1 SDRAM features a capacity of 16GB, which provides users with ample memory space for their computing needs. With 16GB of memory, users can run multiple applications simultaneously without experiencing any lag or slowdown. This is especially beneficial for individuals who engage in resource-intensive tasks such as video editing, gaming, or running virtual machines.

Improved Multitasking

One of the primary benefits of having 16GB of memory is the ability to multitask efficiently. With this capacity, users can have several applications running simultaneously without experiencing any performance issues. For example, you can have multiple browser tabs open while running a video editing software and listening to music, all without any noticeable impact on system performance.

Smooth Gaming Experience

Gamers can also benefit greatly from the 16GB capacity of Micron MTA18ASF2G72PDZ-2G9J1 SDRAM. Many modern games require a significant amount of memory to run smoothly. With 16GB at their disposal, gamers can enjoy a seamless gaming experience with faster load times, reduced lag, and improved overall performance.

Efficient Video Editing

Video editing is another task that demands a substantial amount of memory. With 16GB capacity, users can edit high-resolution videos without any hiccups. The additional memory allows for smoother playback, faster rendering times, and the ability to work with multiple video tracks and effects simultaneously.

Enhanced Virtual Machine Performance

If you frequently work with virtual machines or run virtualization software, having 16GB of memory is crucial. Virtual machines require a portion of your system's memory to operate, and with 16GB, you can allocate sufficient resources to run multiple virtual machines simultaneously without experiencing any performance degradation.

Speed: 2933MHz

Benefits of 2933MHz Speed

The Micron MTA18ASF2G72PDZ-2G9J1 SDRAM boasts a speed of 2933MHz, which offers several benefits to users seeking fast and responsive performance.

Improved System Responsiveness

The high speed of 2933MHz ensures that data is transferred quickly between the memory module and the processor. This results in improved system responsiveness, allowing applications to launch faster, files to load quickly, and overall smoother operation of your computer.

Seamless Multitasking

With a higher speed, the Micron MTA18ASF2G72PDZ-2G9J1 SDRAM enables seamless multitasking. The faster data transfer rate means that your computer can quickly switch between different applications and tasks without any noticeable delay. This is particularly beneficial for users who frequently work with resource-intensive software or handle large datasets.

Efficient Gaming Performance

Gamers will appreciate the benefits of the 2933MHz speed offered by this SDRAM module. High-speed memory ensures that game data is accessed and loaded quickly, resulting in reduced loading times and smoother gameplay. The increased speed also helps minimize lag and stuttering during intense gaming sessions, providing a more immersive and enjoyable experience.

Enhanced Multimedia Processing

If you regularly work with multimedia applications such as video editing software or 3D modeling programs, a higher speed can significantly improve processing times. The increased data transfer rate allows for faster rendering and encoding of multimedia files, reducing the time required to complete complex tasks.

PC: PC4-23400

Benefits of PC4-23400

The Micron MTA18ASF2G72PDZ-2G9J1 SDRAM is classified as PC4-23400, which indicates its compatibility with the latest DDR4 standard and its ability to operate at high speeds.

Compatibility and Future-Proofing

By adhering to the DDR4 standard, this SDRAM module ensures compatibility with a wide range of modern systems. Whether you have a desktop computer or a server, the PC4-23400 designation guarantees that this memory module will work seamlessly with your system. Additionally, DDR4 is the latest standard in memory technology, so choosing a PC4-23400 module ensures that your system is future-proofed and ready for any advancements in memory technology.

Enhanced Performance

The PC4-23400 classification signifies that this memory module can operate at a high data transfer rate of 2933MHz. This results in enhanced performance across various computing tasks, including multitasking, gaming, content creation, and more. The ability to handle data at such high speeds ensures that your system can keep up with demanding applications and deliver a smooth user experience.

Improved Energy Efficiency

DDR4 memory modules, such as the Micron MTA18ASF2G72PDZ-2G9J1 SDRAM, are designed to be more energy-efficient compared to previous generations. The PC4-23400 designation indicates that this memory module consumes less power while still delivering top-notch performance. This not only reduces your system's overall power consumption but also helps in maintaining cooler operating temperatures.

Increased Memory Bandwidth

Memory bandwidth refers to the amount of data that can be transferred between the memory module and the processor within a given time. The PC4-23400 classification ensures a high memory bandwidth, enabling your system to handle data-intensive tasks efficiently. This is particularly beneficial for users who work with large datasets, perform complex calculations, or run memory-intensive applications.

ECC: Yes

Benefits of ECC

The Micron MTA18ASF2G72PDZ-2G9J1 SDRAM features Error Correction Code (ECC), which provides several benefits to users seeking reliable and error-free memory performance.

Enhanced Data Integrity

ECC technology is designed to detect and correct errors in memory operations, ensuring the integrity of your data. By utilizing ECC, the Micron MTA18ASF2G72PDZ-2G9J1 SDRAM can provide a higher level of reliability compared to non-ECC memory modules. This is particularly crucial for critical applications such as servers, workstations, and databases that handle sensitive or valuable data.

Reduced System Downtime

ECC functionality helps minimize system downtime caused by memory errors. When an error is detected, the ECC feature can correct it on the fly without requiring a system restart or intervention from the user. This ensures that your system remains operational and secure, even in the face of occasional memory errors.

Stable Performance under Heavy Workloads

For users engaged in memory-intensive tasks or running resource-demanding applications, ECC can provide peace of mind. The error correction capabilities of ECC memory help maintain stable performance even under heavy workloads, preventing crashes or data corruption that could result in lost work or system instability.

Protection against Single-Bit Errors

ECC is specifically designed to detect and correct single-bit errors, which are the most common type of memory errors. Single-bit errors can occur due to various factors, including cosmic rays, electrical noise, or component aging. By detecting and correcting these errors automatically, ECC ensures that your data remains accurate and free from corruption.

Registered: Yes

Benefits of Registered Memory

The Micron MTA18ASF2G72PDZ-2G9J1 SDRAM is registered memory, which offers several benefits in terms of stability and performance.

Improved System Stability

Registered memory, also known as buffered memory, includes a register between the memory module and the memory controller. This register helps reduce electrical load on the memory bus, resulting in improved signal integrity and reduced electrical noise. The improved signal integrity translates into enhanced system stability, making registered memory an ideal choice for servers and workstations that require continuous operation without any disruptions.

Support for Higher Memory Capacities

Registered memory allows for higher memory capacities compared to unbuffered memory. The inclusion of a register helps reduce electrical load on the memory bus, allowing for more modules to be installed without negatively impacting system stability or performance. This makes registered memory an excellent choice for users who require large amounts of memory for their computing needs.

Enhanced Memory Performance

The use of a register in registered memory provides a performance advantage by reducing electrical noise and improving signal integrity. This can result in faster data transfer rates and improved overall memory performance. Whether you are running resource-intensive applications or engaging in heavy multitasking, registered memory can help ensure that your system operates at its peak performance.

Compatibility with Server Environments

Registered memory is widely used in server environments due to its stability, scalability, and compatibility. The Micron MTA18ASF2G72PDZ-2G9J1 SDRAM, being registered memory, is an excellent choice for server deployments. It can handle the demanding requirements of server applications and provide the necessary reliability and performance needed in critical server environments.

Rank: Dual Rank

Benefits of Dual Rank Memory

The Micron MTA18ASF2G72PDZ-2G9J1 SDRAM features dual rank memory technology, which offers several benefits in terms of performance and compatibility.

Improved Memory Performance

Dual rank memory modules offer improved memory performance compared to single rank modules. With dual rank memory, data can be accessed from two different ranks simultaneously, effectively doubling the memory bandwidth. This results in faster data transfer rates and improved overall system performance, especially when running memory-intensive applications or engaging in multitasking.

Compatibility with a Wide Range of Systems

Dual rank memory is compatible with a wide range of systems, making it a versatile choice for various computing environments. Whether you have a desktop computer, a workstation, or a server, the Micron MTA18ASF2G72PDZ-2G9J1 SDRAM will seamlessly integrate into your system without any compatibility issues. This compatibility makes dual rank memory an excellent option for users seeking an upgrade or replacement for their existing memory modules.

Scalability and Future Expansion

Dual rank memory allows for greater scalability and future expansion options. The use of two ranks allows for larger memory capacities to be achieved without compromising system stability or performance. This means that you can easily upgrade your system's memory in the future by adding additional dual rank modules, providing a cost-effective and flexible solution for your evolving computing needs.

Optimized Performance in Dual-Channel Configurations

Many modern systems utilize dual-channel memory configurations for improved performance. Dual rank memory modules are specifically designed to take advantage of this configuration by distributing data across the two ranks, effectively maximizing memory bandwidth. With the Micron MTA18ASF2G72PDZ-2G9J1 SDRAM's dual rank feature, you can achieve optimal performance when used in dual-channel memory setups.

Architecture: X8

Benefits of X8 Architecture

The Micron MTA18ASF2G72PDZ-2G9J1 SDRAM utilizes an X8 architecture, which offers several benefits in terms of performance and compatibility.

Enhanced Memory Performance

The X8 architecture provides enhanced memory performance by organizing the memory chips in an efficient manner. The X8 architecture refers to the organization of the memory chips as 8 bits wide, allowing for faster data transfer rates compared to lower bit configurations. This results in improved overall system performance, especially when running memory-intensive applications or engaging in multitasking.

Compatibility with a Wide Range of Systems

The X8 architecture is compatible with a wide range of systems, making it a versatile choice for various computing environments. Whether you have a desktop computer, a workstation, or a server, the Micron MTA18ASF2G72PDZ-2G9J1 SDRAM will seamlessly integrate into your system without any compatibility issues. This compatibility makes X8 architecture an excellent option for users seeking an upgrade or replacement for their existing memory modules.

Optimized Performance in Dual-Channel Configurations

Many modern systems utilize dual-channel memory configurations for improved performance. The X8 architecture is designed to take advantage of this configuration by distributing data across the multiple memory chips, effectively maximizing memory bandwidth. With the Micron MTA18ASF2G72PDZ-2G9J1 SDRAM's X8 architecture, you can achieve optimal performance when used in dual-channel memory setups.

Scalability and Future Expansion

The X8 architecture allows for greater scalability and future expansion options. By utilizing an X8 architecture, the Micron MTA18ASF2G72PDZ-2G9J1 SDRAM can easily be combined with additional memory modules to increase the overall memory capacity of your system. This scalability ensures that your system can meet the demands of future applications and workloads without the need for a complete memory replacement.

Voltage: 1.2V

Benefits of 1.2V Voltage

The Micron MTA18ASF2G72PDZ-2G9J1 SDRAM operates at a voltage of 1.2V, providing several benefits in terms of energy efficiency and compatibility.

Energy Efficiency

The use of a lower voltage, such as 1.2V, results in improved energy efficiency compared to higher voltage memory modules. The lower voltage requirement reduces power consumption, leading to lower energy costs and reduced heat generation. This is particularly beneficial for users looking to build energy-efficient systems or those who prioritize minimizing their carbon footprint.

Compatibility with Modern Systems

The 1.2V voltage is compatible with modern systems that adhere to the DDR4 standard. Many newer systems are designed to operate at lower voltages for improved power efficiency. The Micron MTA18ASF2G72PDZ-2G9J1 SDRAM's 1.2V voltage ensures compatibility with a wide range of DDR4-compatible systems, allowing for easy integration and optimal performance.

Heat Reduction

Operating at a lower voltage helps reduce heat generation within your system. The reduced heat output not only contributes to a more energy-efficient operation but also helps in maintaining optimal system temperatures. This is particularly important for systems that undergo heavy workloads or operate in warmer environments, as it can contribute to improved system stability and longevity.

Overclocking Potential

The lower voltage requirement of 1.2V can also have implications for users interested in overclocking their memory modules. Overclocking refers to running the memory module at speeds higher than the manufacturer's specified limits. Lower voltage requirements often allow for greater overclocking headroom, as the reduced heat generation and power consumption help maintain stability at higher clock speeds. However, it is important to note that overclocking should be approached with caution and within the recommended operating limits to avoid potential damage to the memory module or other components.

Pin: 288-Pin

Benefits of 288-Pin Configuration

The Micron MTA18ASF2G72PDZ-2G9J1 SDRAM features a 288-pin configuration, offering several benefits in terms of compatibility and performance.

Wide Compatibility

The 288-pin configuration is widely adopted by modern memory modules, ensuring compatibility with a vast array of systems. Whether you have a desktop computer, a workstation, or a server, the Micron MTA18ASF2G72PDZ-2G9J1 SDRAM's 288-pin configuration guarantees seamless integration into your system without any compatibility issues. This makes it an excellent choice for users looking to upgrade or replace their existing memory