16GB Micron MTA36ASF2G72PZ-2G6B2 DDR4 SDRAM Dimm 288-Pin 2666MHZ PC4-21300 CL19 ECC 1.2V REGISTERED DUAL RANK Memory
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Micron 16GB DDR4 SDRAM Memory Module
Manufacturer Details
- Brand: Micron
- Part Number: MTA36ASF2G72PZ-2G6B2
- Product Type: 16GB DDR4 SDRAM Memory Module
Technical Specifications
- Memory Capacity: 16GB, suitable for data-heavy applications
- Technology: DDR4 SDRAM, designed for fast and efficient performance
- Single Module Configuration: 1 x 16GB for simple installation and upgrades
- Data Rate: 2666MHz (DDR4-2666 / PC4-21300), enhancing data transfer rates
- ECC Support: Error-Correcting Code (ECC) for secure and reliable data management
- Signal Processing: Registered memory to ensure system stability
- Latency: CAS latency of CL19 for quick access and response times
- Voltage: Operates at a low 1.2V for power-efficient usage
Performance and Efficiency
Speed and Data Integrity
- Running at a speed of 2666MHz, this module supports faster data access and improved system responsiveness.
- ECC functionality enhances data integrity by correcting errors, ideal for mission-critical applications.
Dual Rank Configuration and Stability
- Rank Design: Dual rank for increased memory bandwidth, improving multitasking capabilities.
- Registered Processing: Provides system stability and reliability, ideal for complex computing environments.
Physical Characteristics
- Form Factor: 288-pin DIMM, compatible with a wide range of workstations and servers.
- Low Voltage: 1.2V for energy-saving benefits and reduced power consumption.
Energy Efficiency and Compatibility
- Designed with low voltage to minimize power use, making it ideal for energy-conscious environments.
- Compatible with systems that support DDR4 RDIMM with ECC, tailored for robust and reliable computing needs.
Applications and Ideal Use Cases
- Well-suited for high-performance servers, enterprise data centers, and intensive data processing applications.
- Optimized for virtualization, big data workloads, and critical operations requiring high reliability.
Why Choose Micron DDR4 ECC Registered Memory?
- Micron memory is known for durability and stability, ensuring reliability for demanding workloads and environments.
- Equipped with ECC and registered features, Micron's modules are built for efficient, error-free performance over time.
Capacity: 16GB
The Benefits of 16GB Capacity
The Micron MTA36ASF2G72PZ-2G6B2 DDR4 SDRAM Dimm is equipped with a generous capacity of 16GB, making it an ideal choice for users who require high-performance memory for their demanding tasks. Whether you are a professional working with resource-intensive applications or a gamer looking to enhance your gaming experience, the 16GB capacity offers several benefits that can greatly improve your overall system performance.
1. Multitasking Powerhouse
With 16GB of memory, you can effortlessly handle multitasking without experiencing any lag or slowdowns. This capacity allows you to run multiple applications simultaneously without sacrificing performance. You can have your web browser open with numerous tabs, while also running resource-hungry software like video editing programs or virtual machines, all without worrying about your system becoming sluggish.
2. Improved System Responsiveness
With more memory, your system can store and access data faster, resulting in improved responsiveness. This means that tasks such as launching applications, opening files, and switching between different programs will be executed with lightning speed. You'll spend less time waiting for processes to complete and more time being productive or enjoying your favorite games.
3. Enhanced Gaming Performance
Gamers will especially benefit from the 16GB capacity of this DDR4 SDRAM Dimm. Modern games are becoming increasingly demanding in terms of memory usage, and having sufficient RAM is crucial for achieving smooth gameplay. With 16GB at your disposal, you'll be able to play the latest AAA titles without any performance hiccups, ensuring an immersive gaming experience free from stuttering or frame rate drops.
4. Future-Proofing Your System
Investing in a 16GB memory module ensures that your system is ready for the future. As software and applications continue to evolve, their memory requirements will increase. By opting for a larger capacity like 16GB, you can future-proof your system and avoid the need for immediate upgrades when newer, more memory-intensive software becomes mainstream.
5. Smooth Virtualization
If you are involved in virtualization tasks, whether it's running virtual machines or using software like Docker, having ample memory is essential. Virtualization requires significant resources, and the 16GB capacity of this DDR4 SDRAM Dimm allows you to allocate enough memory to ensure smooth virtual machine operations. You won't have to worry about your virtual environments slowing down or crashing due to insufficient memory.
Pin: 288-Pin
The Importance of a 288-Pin Configuration
The Micron MTA36ASF2G72PZ-2G6B2 DDR4 SDRAM Dimm features a 288-pin configuration, which plays a vital role in ensuring compatibility and efficient data transfer within your system. Understanding the importance of this pin configuration can help you make an informed decision when choosing memory modules for your computer.
1. Compatibility with DDR4 Systems
The 288-pin configuration is specifically designed for DDR4 memory modules, ensuring compatibility with modern systems that support this technology. DDR4 has become the standard for high-performance computing due to its improved speed and efficiency compared to its predecessor, DDR3. By selecting a memory module with a 288-pin configuration, you can be confident that it will work seamlessly with your DDR4-compatible motherboard.
2. Secure and Stable Connection
The 288-pin configuration provides a secure and stable connection between the memory module and the motherboard. Each pin is responsible for transmitting data between the two components, and the larger number of pins in a 288-pin module allows for better data transfer rates and reliability. This ensures that your system operates smoothly without any data loss or corruption, providing a stable environment for your applications and files.
3. Improved Memory Bandwidth
The 288-pin configuration contributes to increased memory bandwidth, which is essential for achieving faster data transfer rates. With more pins available for transmitting data, the memory module can handle larger amounts of information simultaneously. This results in improved system performance, as data can be accessed and processed more efficiently. Whether you are working with large files, running memory-intensive applications, or gaming, the increased memory bandwidth provided by a 288-pin configuration can significantly enhance your overall experience.
4. Enhanced Overclocking Potential
If you are an enthusiast looking to push your system to its limits through overclocking, a 288-pin configuration can be advantageous. The additional pins allow for better power delivery and stability, enabling higher overclocking frequencies. Overclocking your RAM can lead to increased system performance, as it allows for faster data processing and improved responsiveness. With a 288-pin module, you have the potential to achieve higher overclocks while maintaining stability.
Speed: 2666MHZ
The Benefits of 2666MHz Speed
The Micron MTA36ASF2G72PZ-2G6B2 DDR4 SDRAM Dimm boasts a speed of 2666MHz, providing users with a high-performance memory solution that delivers fast and efficient data processing capabilities. The speed of a memory module plays a crucial role in determining overall system performance, and the 2666MHz speed offers several benefits that can greatly enhance your computing experience.
1. Quick Data Transfer
With a speed of 2666MHz, this DDR4 SDRAM Dimm can transfer data at a rapid pace. The higher the speed, the faster your system can access and retrieve information from the memory module. This is particularly advantageous when working with large files or running applications that require frequent data retrieval. You'll experience reduced loading times, improved responsiveness, and overall smoother system operation.
2. Seamless Multitasking
The 2666MHz speed allows for seamless multitasking without sacrificing performance. When you have multiple applications running simultaneously, each application requires its share of memory bandwidth. With a higher speed, your system can handle the demands of multitasking more efficiently, ensuring that each application receives the necessary resources without causing slowdowns or bottlenecks.
3. Enhanced Gaming Experience
Gamers will particularly appreciate the benefits of the 2666MHz speed. Modern games often require fast data access to deliver smooth and immersive gameplay. By opting for a memory module with a higher speed like 2666MHz, you'll be able to enjoy your favorite games with higher frame rates, reduced input lag, and minimal stuttering. This ensures a more enjoyable and responsive gaming experience.
4. Faster Application Performance
Applications that rely heavily on memory bandwidth, such as video editing software or virtual machines, can greatly benefit from the 2666MHz speed. These resource-intensive tasks require quick access to large amounts of data, and the higher speed allows for faster processing and rendering times. You'll experience improved performance when editing videos, rendering 3D models, or running multiple virtual machines simultaneously.
Pc: PC4-21300
The Importance of PC4-21300 Specification
The Micron MTA36ASF2G72PZ-2G6B2 DDR4 SDRAM Dimm is labeled with the PC4-21300 specification, which specifies the module's peak transfer rate and compatibility. Understanding the significance of this specification can help you make an informed decision when choosing memory for your system.
1. Peak Transfer Rate
The PC4-21300 specification indicates a peak transfer rate of 21300MB/s. This refers to the maximum amount of data that can be transferred from the memory module to the system per second. A higher peak transfer rate signifies faster data transfer, resulting in improved system performance and responsiveness. By choosing a memory module with a higher peak transfer rate like PC4-21300, you can ensure that your system operates at optimal speeds.
2. Compatibility with DDR4 Systems
The PC4-21300 specification is specifically designed for DDR4 memory modules, ensuring compatibility with modern systems that support this technology. DDR4 has become the standard for high-performance computing due to its improved speed and efficiency compared to its predecessor, DDR3. By selecting a memory module with the PC4-21300 specification, you can be confident that it will work seamlessly with your DDR4-compatible motherboard.
3. Future-Proofing Your System
Investing in a memory module with the PC4-21300 specification ensures that your system is ready for future advancements in memory technology. As software and applications continue to evolve, their memory requirements will increase. By opting for a module with a higher peak transfer rate, you can future-proof your system and avoid the need for immediate upgrades when newer, more memory-intensive software becomes mainstream.
4. Reliable Performance
The PC4-21300 specification guarantees reliable performance, as it signifies that the module has been tested and certified to meet industry standards. This ensures that the memory module operates within its specified parameters and provides consistent and stable performance. By choosing a memory module with the PC4-21300 specification, you can be confident in its reliability and enjoy uninterrupted performance for your computing needs.
Cl: CL19
The Benefits of CL19 Latency
The Micron MTA36ASF2G72PZ-2G6B2 DDR4 SDRAM Dimm features a CAS latency (CL) of 19, which determines the delay between a memory request and the actual data transfer. The CL19 latency offers several benefits that can greatly enhance overall system performance and responsiveness.
1. Faster Data Access
A lower CAS latency value, such as CL19, allows for faster data access. The CL19 latency ensures that the requested data is transferred with minimal delay, reducing the waiting time for information to be retrieved from the memory module. This results in faster application loading times, improved system responsiveness, and smoother overall performance.
2. Improved System Efficiency
A lower CAS latency improves system efficiency by minimizing idle time and maximizing data transfer rates. With a CL19 latency, your system can retrieve data more quickly, allowing applications to execute their operations without unnecessary delays. This ensures that your CPU is continuously fed with the necessary data, optimizing its efficiency and resulting in improved overall system performance.
3. Enhanced Gaming Experience
Gamers will particularly benefit from the CL19 latency of this DDR4 SDRAM Dimm. Lower CAS latency can significantly reduce input lag, providing a more responsive gaming experience. When paired with a high-speed memory module, the CL19 latency ensures that your system can keep up with the demands of modern games, resulting in smoother gameplay and improved frame rates.
4. Better Overclocking Potential
A lower CAS latency, such as CL19, allows for better overclocking potential. Overclocking your memory modules can lead to increased system performance, as it allows for faster data processing and improved responsiveness. With a CL19 latency, you have the potential to achieve higher overclocks while maintaining stability, resulting in an overall boost to your system's performance.
Ecc: 1
The Importance of ECC (Error-Correcting Code) Technology
The Micron MTA36ASF2G72PZ-2G6B2 DDR4 SDRAM Dimm is equipped with ECC (Error-Correcting Code) technology, which provides an added layer of reliability and data integrity to your system. Understanding the importance of ECC technology can help you make an informed decision when choosing memory modules for critical applications or systems that require maximum uptime.
1. Detecting and Correcting Memory Errors
ECC technology detects and corrects memory errors that may occur during data storage and retrieval processes. It uses additional bits to store parity information alongside the actual data, enabling the module to identify and fix single-bit errors. This ensures that any errors introduced during the memory transfer process are corrected automatically, preventing data corruption and maintaining system stability.
2. Enhanced System Reliability
By implementing ECC technology, memory modules can provide enhanced system reliability. Single-bit errors are relatively common in memory systems due to various factors such as background radiation or electromagnetic interference. With ECC, these errors are immediately detected and corrected, preventing them from propagating and potentially causing system crashes or data loss. This is particularly crucial for applications that require maximum uptime and data integrity, such as server environments or mission-critical systems.
3. Data Integrity and Protection
ECC technology ensures the integrity and protection of your data by preventing silent data corruption. Silent data corruption occurs when errors in memory go undetected, resulting in the storage or retrieval of incorrect data. With ECC, these errors are immediately identified and corrected, ensuring that the data stored in your memory modules remains accurate and reliable. This is especially important for applications that handle sensitive data or critical operations where even minor errors can have significant consequences.
4. Minimizing System Downtime
When errors occur in non-ECC memory systems, they often lead to system crashes or freezes, requiring manual intervention to resolve the issue. With ECC technology, errors are automatically corrected, minimizing system downtime and reducing the need for manual intervention. This ensures that your system remains operational even in the presence of memory errors, allowing for uninterrupted productivity and preventing potential losses associated with system failures.
Voltage: 1.2V
The Benefits of Low Voltage (1.2V)
The Micron MTA36ASF2G72PZ-2G6B2 DDR4 SDRAM Dimm operates at a low voltage of 1.2V, offering several benefits that contribute to improved energy efficiency, reduced heat generation, and increased system stability.
1. Energy Efficiency
Operating at a low voltage of 1.2V allows the DDR4 SDRAM Dimm to consume less power compared to memory modules that operate at higher voltages. This translates to improved energy efficiency, reducing overall power consumption and contributing to a greener and more environmentally friendly system. Lower power consumption also means less strain on your system's power supply, resulting in reduced heat generation and potentially quieter operation.
2. Reduced Heat Generation
A lower voltage of 1.2V results in reduced heat generation during memory module operation. Lower heat generation is beneficial for maintaining system stability, as excessive heat can lead to performance throttling or even system crashes. By operating at a low voltage, the DDR4 SDRAM Dimm helps to keep your system cool and ensures reliable performance even during demanding tasks or prolonged usage periods.
3. Compatibility with Modern Systems
Modern systems, especially those designed for energy efficiency, are optimized to work with low-voltage memory modules. By choosing a memory module that operates at 1.2V, such as the Micron MTA36ASF2G72PZ-2G6B2 DDR4 SDRAM Dimm, you ensure compatibility with these systems. This allows for seamless integration and reliable operation without the need for any additional modifications or adjustments.
4. Overclocking Potential
When it comes to overclocking your memory modules, a lower voltage can be advantageous. Operating at a lower voltage not only reduces heat generation but also provides more headroom for pushing the module's frequency and timings to achieve higher overclocks. The 1.2V voltage of the DDR4 SDRAM Dimm allows for better control over power delivery and stability, enabling enthusiasts to achieve higher overclocking frequencies while maintaining optimal system performance.
Registered: 1
The Importance of Registered Memory
The Micron MTA36ASF2G72PZ-2G6B2 DDR4 SDRAM Dimm features registered memory, also known as buffered memory, which offers several benefits that contribute to improved system stability, scalability, and data integrity. Understanding the importance of registered memory can help