Description
Product overview for the Micron MTA36ASF4G72PZ-2G6J1
In the ever-evolving landscape of server technology, the importance of reliable and high-performance memory modules cannot be overstated. The Micron MTA36ASF4G72PZ-2G6J1 32GB DDR4-2666MHz SDRAM Dual Rank X4 CC Registered CL19 288-Pin DIMM Memory Module stands out as a promising solution for server applications. In this detailed review, we will explore the key features, technical specifications, and performance aspects of this memory module to provide readers with a comprehensive understanding.
Key Features Micron Reliability
Micron is a well-established name in the semiconductor industry, known for producing high-quality memory solutions. The MTA36ASF4G72PZ-2G6J1 continues this tradition, offering robust reliability crucial for server environments where stability is paramount.
Generous Capacity
With a 32GB capacity, this memory module provides ample space for handling complex server workloads. The substantial memory size is ideal for tasks such as virtualization, database management, and other memory-intensive applications.
DDR4-2666MHz Speed
The DDR4-2666MHz speed ensures swift data transfer rates, enhancing the overall performance of the server. This is particularly beneficial for applications that demand quick data access and retrieval.
Dual Rank X4 Configuration
The dual rank X4 configuration is designed to optimize memory access and improve system efficiency. It allows for better multitasking capabilities and ensures that the memory module can handle a variety of simultaneous processes effectively.
ECC Registered and CL19 Latency
The memory module is Ecc registered, which stands for Command/Address (CA) and Control (C) lines Registered. This feature contributes to signal integrity, reducing the likelihood of data errors. Additionally, the CL19 latency ensures quick response times, further enhancing overall system performance.
288-Pin DIMM Form Factor
The 288-pin DIMM form factor ensures compatibility with a wide range of server motherboards. This standard form factor simplifies the installation process, making it easier for users to upgrade or replace memory modules as needed.
Performance AnalysisSpeed and Bandwidth
The DDR4-2666MHz speed of the Micron MTA36ASF4G72PZ-2G6J1 contributes to higher bandwidth, allowing for faster data transfer rates between the memory module and the server. This is especially beneficial for applications that rely on quick access to large datasets.
Dual Rank
The dual rank X4 configuration enhances the memory module’s ability to handle multiple tasks simultaneously. This is crucial in server environments where multitasking is a common requirement. The efficient handling of concurrent processes can lead to improved overall system responsiveness.
ECC Registered Technology
The ECC-registered technology employed in this memory module enhances signal integrity by buffering the command and address signals. This results in reduced electrical load on the memory controller and minimizes the risk of signal distortions, ensuring a stable and reliable performance in server applications.
CL19 Latency
A CAS latency (CL) of 19 ensures that the memory module can quickly respond to requests, minimizing delays in data retrieval. Lower latency is particularly important in server environments where time-sensitive tasks are common.
Compatibility
The Micron MTA36ASF4G72PZ-2G6J1 memory module, with its 288-pin DIMM form factor, is designed to be compatible with a variety of server motherboards. The standardization of the form factor simplifies the installation process, making it accessible even for users with limited technical expertise.
Users need to consult their server’s documentation to ensure compatibility with this specific memory module. Additionally, verifying the server’s maximum supported memory capacity and memory slot configuration is crucial to achieving optimal performance.
Use Cases and Application Scenarios
The generous capacity, high speed, and dual rank configuration of the Micron MTA36ASF4G72PZ-2G6J1 make it well-suited for a range of server applications:
Virtualization
In virtualized environments, where multiple virtual machines run concurrently, the substantial 32GB capacity and dual rank configuration can support the demands of running various operating systems and applications simultaneously.
Database Management
For servers handling large databases, the quick data access enabled by the DDR4-2666MHz speed is advantageous. The memory module’s reliability and registered technology further ensure the integrity of critical database operations.
High-Performance Computing (HPC)
Servers involved in high-performance computing tasks, such as scientific simulations and data analysis, benefit from the combination of high capacity and quick data transfer rates provided by this memory module.
General Information about the Micron MTA36ASF4G72PZ-2G6J1
- Manufacturer: Micron
- Model Number or SKU# MTA36ASF4G72PZ-2G6J1
- Type: Memory (RAM)
- RAM -Type: Pc4-21300
- Product Name: 32GB DDR4 SDRAM Memory Module
Technical Information for the 32GB DDR4 RAM
- Storage Capacity: 32GB
- Memory Technology: DDR4 SDRAM
- Number Of Modules: 1 X 32GB
- Memory Speed: 2666 MHz DDR4-2666/PC4-21300
- Data Integrity Check: ECC
- Signal Processing: Registered
- Voltage: 1.2V
- Form Factor: 288-Pin Dimm
Outline, the Micron MTA36ASF4G72PZ-2G6J1 32GB DDR4-2666MHz SDRAM Dual Rank X4 CC Registered CL19 288-Pin DIMM Memory Module stands out as a reliable and high-performance solution for server applications. Its key features, including generous capacity, optimal speed, and advanced technologies like CC registration, make it a compelling choice for server administrators looking to enhance their system’s memory capabilities.
Whether used in virtualized environments, database management, or high-performance computing scenarios, this memory module demonstrates its versatility and capability to handle diverse workloads. With Micron’s reputation for reliability backing it, the MTA36ASF4G72PZ-2G6J1 proves to be a valuable addition to the ever-expanding landscape of server memory solutions.
