MTC10F1084S1RC64BD2 Micron 16GB DDR5 6400MHz PC5-51200 1rx8 ECC Registered CL52 288-Pin 1.1v DIMM Server Memory

Product Overview of the Micron 16GB DDR5 Server Memory

The Micron MTC10F1084S1RC64BD2 is a high-performance 16GB DDR5 SDRAM memory module specially engineered for enterprise servers and professional workstations. Built with next-generation DDR5 architecture, this module delivers superior speed, stability, and power efficiency for modern computing environments.

General Information

Manufacturer Details

• Brand: Micron
• Model Number: MTC10F1084S1RC64BD2
• Product Type: DDR5 SDRAM Memory Module
• Capacity: 16GB

Technical Features and Benefits

• Memory Type: DDR5 SDRAM
• Speed: 6400 MT/s
• ECC Support: Yes
• Rank: 1Rx8
• Form Factor: 288-Pin RDIMM
• Voltage: 1.1V
• Latency: CL52

Compatibility

This Micron DDR5 RDIMM is compatible with server-grade systems that support DDR5 Registered ECC memory.

• Enterprise servers using DDR5 RDIMM slots
• Data center platforms requiring ECC memory
• Workstations with DDR5 Registered DIMM support
• Cloud computing and virtualization servers
• High-performance computing (HPC) systems

The Micron 16GB DDR5 6400MHz PC5-51200 ECC Server Memory

The Micron MTC10F1084S1RC64BD2 16GB DDR5 6400MHz memory kit stands at the cutting edge of server memory technology, combining powerful performance with reliability features that modern data centers, enterprise systems, and professional workloads demand. Designed to operate in mission-critical environments, this memory module brings together superior speed, advanced ECC support, and next-generation DDR5 architecture. Whether your setup involves high-performance computing, virtualization clusters, or large databases, this category of server memory offers robust solutions that enhance system responsiveness, stability, and scalability.

This Server Memory for Enterprise Systems

Server memory is a foundational component in enterprise computing platforms. Unlike traditional desktop memory designed for consumer PCs, server memory modules such as the Micron MTC10F1084S1RC64BD2 are engineered for rigorous workloads, extended uptime, and error-free operation. These modules often support features like ECC (Error-Correcting Code) and Registered (RDIMM) architecture to ensure data integrity and reliable performance under heavy loads.

ECC Registered Memory

ECC (Error-Correcting Code) Registered memory is a defining characteristic of enterprise-grade modules. In contrast to non-ECC memory, ECC memory can detect and correct single-bit errors in memory. These errors, though rare, can cause system crashes, data corruption, or unexpected results in critical computations if left unchecked.

Registered DIMM (RDIMM)

Registered DIMMs, often called RDIMMs, include an additional register component that buffers and stabilizes control signals to the DRAM chips. This buffer reduces electrical loading on the memory controller, enabling the use of more memory modules in a system without compromising signal integrity.

Form Factor

The Micron memory module follows the 288-pin DIMM form factor standard, which is typical for DDR5 memory used in modern server motherboards. These pins interface directly with the memory sockets on compatible server boards, ensuring seamless integration with leading server platforms.

Server Platforms

Before deploying any memory module, ensure the server motherboard supports DDR5, ECC, and RDIMM configurations. Modern data center platforms from leading manufacturers (such as Dell EMC, HPE, Lenovo, and Supermicro servers) commonly support these specifications, enabling optimized performance for business-critical applications.

Use Cases

High-Performance Computing (HPC)

HPC applications demand both high memory capacity and bandwidth. These systems solve complex scientific problems, simulations, and large datasets that benefit from the fast DDR5 architecture and ECC reliability. Whether used in academic research or industrial simulations, this memory category ensures you extract the maximum performance from your compute nodes.

Database and Workloads

Large databases and real-time analytics systems benefit from greater memory speeds and capacities, particularly when caching and in-memory processing are critical for low-latency operations.

Latency

Memory timing, represented by numbers such as CL52, indicates the delay cycles between memory requests and responses. While raw frequency is an important factor, efficient timing ensures that memory operations proceed with minimal stalls.

DDR5 Latency

Although DDR5 may have slightly higher latency timing figures compared to DDR4 due to its advanced internal architecture, its higher overall bandwidth and performance optimizations make it more effective for handling complex and multi-threaded server tasks. The Micron memory’s timing parameters are tuned to balance speed and reliability for enterprise usage.

Voltage and Power

Operating at a nominal voltage of 1.1V, this memory kit benefits from DDR5’s improved power efficiency. Lower operating voltage reduces total energy consumption and thermal output, which is particularly important in data centers where power and cooling are major operational costs.

ECC RDIMM vs Non-ECC Memory

The key difference between ECC RDIMM and non-ECC memory is reliability. Server environments benefit from ECC’s ability to detect and correct errors, whereas non-ECC memory lacks this capability, making it more suited to consumer desktop environments where data integrity is less critical.