Micron 16GB 2666MHZ PC4-21300 Cl19 Ecc 1.2v Registered Dual Rank DDR4 SDRAM Dimm 288-Pin Micron Memory MTA36ASF2G72PZ-2G6F1
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SKU/MPN | Warranty | Price | Condition | You save |
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MTA36ASF2G72PZ-2G6F1 | Six-Month (180 Days) | $165.54 | Factory-Sealed New in Original Box (FSB) | You save: $68.01 (29%) |
MTA36ASF2G72PZ-2G6F1 | Six-Month (180 Days) | $31.00 | New (System) Pull | You save: $20.30 (40%) |
Micron 16GB DDR4 SDRAM Memory Module
Manufacturer Information
- Brand: Micron
- Part Number: MTA36ASF2G72PZ-2G6F1
- Product Type: 16GB DDR4 SDRAM RAM Module
Technical Specifications
- Memory Capacity: 16GB, suitable for handling large data tasks
- Technology: DDR4 SDRAM, providing high-speed data processing
- Module Configuration: Single module, 1 x 16GB
- Data Rate: 2666MHz (DDR4-2666 / PC4-21300), supporting fast and efficient data access
- Error Correction: ECC (Error-Correcting Code) for reliable, accurate data handling
- Signal Processing: Registered memory, which enhances system stability
- Latency: CAS latency of CL19, enabling responsive system performance
- Operating Voltage: 1.2V, for energy-efficient operation
Performance and Reliability
Data Integrity and Speed
- Runs at 2666MHz, providing high data transfer speeds for intensive applications.
- ECC functionality corrects data errors automatically, ensuring reliable performance in mission-critical environments.
Dual Rank and Registered Memory
- Dual Rank Configuration: Improves memory bandwidth, supporting multitasking and complex workloads.
- Registered Processing: Enhances data integrity and stability in high-demand environments like data centers and servers.
Physical Characteristics
- Form Factor: 288-pin DIMM, compatible with a variety of servers and workstations.
- Voltage Efficiency: Operates at a low 1.2V, minimizing power consumption.
Energy Efficiency and Compatibility
- Low voltage operation supports energy savings, making it ideal for power-sensitive environments.
- Compatible with systems that require DDR4 RDIMM with ECC, designed for dependable computing needs.
Applications and Ideal Use Cases
- Perfect for high-performance servers, data-intensive applications, and enterprise-level workloads.
- Optimized for virtualization, cloud computing, and large data processing tasks.
Micron DDR4 Memory Benefits
- Micron’s memory modules are trusted for their durability and stability, ideal for long-term, mission-critical use.
- Equipped with ECC and registered features, these modules provide reliable and error-free performance for complex operations.
Capacity: 16GB
The Micron MTA36ASF2G72PZ-2G6F1 DDR4 SDRAM is a high-performance memory module with a capacity of 16GB. This significant capacity allows users to handle demanding tasks and run multiple applications simultaneously, ensuring smooth and efficient performance.
Increased Multitasking Abilities
With 16GB of capacity, users can experience improved multitasking capabilities. They can effortlessly switch between various programs and applications without experiencing any lag or slowdown. This is especially beneficial for professionals who rely on resource-intensive software such as video editing tools, virtual machines, or graphic design software.
Enhanced Gaming Experience
Gamers can also benefit from the 16GB capacity of this DDR4 SDRAM. Many modern games require a substantial amount of memory to run smoothly, especially when combined with other resource-heavy applications like streaming software or voice chat programs. With 16GB, gamers can enjoy a seamless gaming experience without worrying about performance issues or frame rate drops.
Efficient Data Handling
The 16GB capacity enables efficient handling of large data sets. Whether you are working with complex spreadsheets, editing high-resolution images, or rendering 3D models, this DDR4 SDRAM provides ample space for storing and manipulating data, resulting in faster processing times and increased productivity.
Speed: 2666MHz
The Micron MTA36ASF2G72PZ-2G6F1 DDR4 SDRAM boasts a speed of 2666MHz, delivering excellent performance and responsiveness for demanding computing tasks.
Faster Data Transfer Rates
The high speed of 2666MHz ensures faster data transfer between the memory module and the processor. This enables quicker loading times for applications, faster boot-up speeds, and improved overall system responsiveness. Users can enjoy a seamless computing experience without any noticeable delays or lags.
Optimized System Performance
The 2666MHz speed of this DDR4 SDRAM allows users to unleash the full potential of their systems. It provides the necessary bandwidth for handling resource-intensive tasks, such as video editing, content creation, or running virtual machines. Users can achieve smoother and more efficient performance, even when dealing with demanding workloads.
Smooth Gaming Performance
Gamers can benefit greatly from the 2666MHz speed of this memory module. It ensures faster loading times for games and reduces in-game stutters or lag. With improved responsiveness, gamers can enjoy a smooth and immersive gaming experience, even in graphically demanding titles.
Cas Latency: CL19
The Micron MTA36ASF2G72PZ-2G6F1 DDR4 SDRAM features a Cas Latency (CL) rating of 19. Cas Latency refers to the time it takes for the memory module to respond to a command from the processor.
Optimized Memory Access
A Cas Latency of 19 ensures efficient memory access and retrieval. The lower the Cas Latency, the faster the memory can respond to commands, resulting in improved overall system performance. This is particularly important when it comes to tasks that heavily rely on memory access, such as gaming, video editing, or data analysis.
Reduced Memory Delays
A lower Cas Latency helps reduce memory delays, allowing for faster data transfer and improved system responsiveness. This is especially beneficial for users who work with large datasets or frequently switch between memory-intensive applications. By minimizing delays, the CL19 rating of this DDR4 SDRAM enhances productivity and ensures a smooth user experience.
Enhanced Gaming Experience
Gamers can also enjoy the benefits of a lower Cas Latency. With a CL19 rating, this memory module can deliver quicker response times, reducing input lag and ensuring a more responsive gaming experience. Users can enjoy smoother gameplay and gain a competitive edge in fast-paced online games.
Ecc: 1
The Micron MTA36ASF2G72PZ-2G6F1 DDR4 SDRAM features Error-Correcting Code (ECC) technology with a rating of 1. ECC is a crucial feature that helps detect and correct errors in memory data, ensuring data integrity and system stability.
Data Integrity and Reliability
ECC technology provides an extra layer of protection against memory errors, which can occur due to various factors such as cosmic radiation or electrical interference. By detecting and correcting these errors, ECC ensures that data stored in the memory remains accurate and reliable, reducing the risk of system crashes or data corruption.
Stable System Performance
With ECC enabled, users can experience a more stable system performance. The error correction capability helps prevent crashes or system freezes caused by memory errors. This is particularly important for mission-critical applications, servers, or workstations where data integrity and system reliability are of utmost importance.
Peace of Mind
ECC technology provides users with peace of mind knowing that their data is protected against potential errors. Whether you are working on important documents, managing financial records, or running critical applications, the ECC feature ensures that your data remains intact and reliable.
Voltage: 1.2V
The Micron MTA36ASF2G72PZ-2G6F1 DDR4 SDRAM operates at a voltage of 1.2V. This low voltage requirement offers several benefits in terms of energy efficiency and reduced power consumption.
Energy Efficiency
A lower voltage requirement translates to improved energy efficiency. By operating at 1.2V, this memory module consumes less power compared to higher voltage alternatives. This is especially important for devices that operate on battery power, such as laptops or mobile devices, as it helps extend battery life and reduce energy consumption.
Cooler Operation
The lower voltage requirement also contributes to cooler operation. Reduced power consumption leads to less heat generation, resulting in lower operating temperatures for the memory module and the overall system. This can help improve system stability and longevity by minimizing the risk of overheating.
Sustainable Computing
Operating at a lower voltage aligns with the principles of sustainable computing. By reducing power consumption, users contribute to a greener environment and minimize their carbon footprint. Choosing memory modules with low voltage requirements, like this DDR4 SDRAM, helps promote energy-efficient practices and sustainability.
Registered: 1
The Micron MTA36ASF2G72PZ-2G6F1 DDR4 SDRAM is a registered memory module with a registered organization (RO) rating of 1. Registered memory offers enhanced stability and reliability in high-performance computing environments.
Improved Signal Integrity
Registered memory modules use an additional register between the memory controller and the memory chips. This register helps strengthen the electrical signals, improving signal integrity and reducing the risk of data errors or signal degradation. As a result, the registered feature of this DDR4 SDRAM ensures reliable data transmission and enhances system stability.
Higher Memory Capacity Support
Registered memory modules are capable of supporting higher memory capacities compared to their unregistered counterparts. This makes them ideal for applications that require large amounts of memory, such as servers or workstations. With a registered organization rating of 1, this memory module can handle demanding workloads and provide sufficient memory capacity for resource-intensive tasks.
Optimized Performance in Multichannel Configurations
The registered feature of this memory module is particularly advantageous in multichannel memory configurations. When multiple modules are installed in parallel, the registered organization helps synchronize the signals and ensures consistent performance across all channels. This is crucial for maintaining system stability and maximizing memory performance in high-bandwidth applications.
Rank: Dual
The Micron MTA36ASF2G72PZ-2G6F1 DDR4 SDRAM features a dual rank configuration. The rank refers to the organization of memory chips on a module, and dual rank configuration offers certain advantages in terms of compatibility and performance.
Increased Memory Density
Dual rank memory modules have a higher memory density compared to single rank modules. This means that they can provide more memory capacity in the same physical form factor. With a dual rank configuration, this DDR4 SDRAM offers enhanced memory density, allowing users to maximize their system's memory capacity without requiring additional slots or modules.
Compatibility with Multichannel Memory Configurations
Dual rank modules are compatible with multichannel memory configurations. When used in conjunction with other dual rank or compatible modules, they can effectively utilize the available memory channels for improved bandwidth and performance. This ensures optimal system performance in applications that require high memory bandwidth, such as content creation, virtualization, or scientific simulations.
Cost-Effective Memory Solution
A dual rank configuration can offer a cost-effective memory solution. Since dual rank modules provide higher memory density, users can achieve the desired memory capacity without the need for purchasing additional modules. This can result in cost savings, especially in scenarios where maximizing memory capacity is a priority.
Form Factor: DIMM
The Micron MTA36ASF2G72PZ-2G6F1 DDR4 SDRAM features a DIMM (Dual In-Line Memory Module) form factor. DIMMs are the most common type of memory module used in desktop and server systems.
Wide Compatibility
DIMM form factor ensures compatibility with a wide range of systems. Whether you are upgrading your desktop computer or expanding the memory capacity of your server, this DDR4 SDRAM is designed to fit into standard DIMM slots found in most modern motherboards. The widespread adoption of DIMM form factor ensures that users can easily integrate this memory module into their existing systems without compatibility issues.
Easy Installation and Upgrades
DIMM modules are designed for easy installation and upgrades. They feature a simple plug-and-play design, allowing users to install or replace the memory module without requiring any specialized tools or technical expertise. This makes it convenient for both novice users and experienced IT professionals to upgrade their systems and improve performance.
Scalability and Flexibility
The DIMM form factor offers scalability and flexibility in terms of memory expansion. By utilizing available DIMM slots, users can add more modules to increase their system's memory capacity as needed. This allows for future-proofing and ensures that the system can adapt to evolving requirements, such as running more demanding applications or accommodating larger datasets.
Pin Number: 288
The Micron MTA36ASF2G72PZ-2G6F1 DDR4 SDRAM features a pin number of 288. The number of pins corresponds to the physical connection between the memory module and the memory slot on the motherboard.
Secure and Stable Connection
The 288-pin design ensures a secure and stable connection between the memory module and the motherboard. Each pin is responsible for transmitting electrical signals, ensuring reliable data transfer and minimizing the risk of signal interference or data corruption. This helps maintain system stability and ensures consistent performance.
Standardized Design
The 288-pin design is a widely adopted industry standard for DDR4 memory modules. This standardized design ensures compatibility across different systems and simplifies the process of selecting and installing memory modules. Users can confidently choose this DDR4 SDRAM knowing that it will be compatible with their systems, provided they have the appropriate number of memory slots.
Future Compatibility
The 288-pin design offers future compatibility for upcoming systems and technologies. As memory technology evolves, manufacturers are likely to continue utilizing the 288-pin design for DDR4 modules. By choosing a memory module with this pin configuration, users can ensure compatibility with future systems and upgrades, providing a level of future-proofing for their investment.