MTC20F104XS1RC64BB2R Micron 48GB DDR5-6400MHz PC5-51200 CL52 RDIMM RAM

Overview of Micron MTC20F104XS1RC64BB2R Memory Module

The Micron MTC20F104XS1RC64BB2R is a high-capacity 48GB DDR5-6400MHz RDIMM server memory module engineered for enterprise-grade computing. With ECC error correction, registered signal processing, and advanced DDR5 technology, this module ensures stability, scalability, and speed for mission-critical workloads.

General Information

• Brand: Micron
• Part Number: MTC20F104XS1RC64BB2R
• Product Type: Server Memory Module
• Application: Enterprise Servers

Technical Specifications

• Memory Size: 48GB
• Memory Technology: DDR5 SDRAM
• Die Density: 24GB

Performance Attributes

• Memory Standard: DDR5-6400 / PC5-51200
• Memory Speed: 6400 MHz
• CAS Latency: CL52 (52-52-52)
• Rank Organization: 1Rx4
• Voltage: 1.1V (12V External)

Reliability Features

• Error Checking: ECC (Error-Correcting Code)
• Signal Processing: Registered

Form Factor

• Design: 288-pin RDIMM

Shipping Dimensions

• Width: 177.8 mm (7.0 in)
• Depth: 54.7 mm (2.15 in)
• Height: 6.35 mm (0.25 in)

Micron MTC20F104XS1RC64BB2R 48GB ECC RDIMM RAM

The Micron MTC20F104XS1RC64BB2R 48GB DDR5-6400MHz PC5-51200 CL52 ECC 288-Pin RDIMM Server Memory Module represents a new generation of enterprise-grade server memory engineered for modern data center environments, virtualization infrastructure, cloud computing platforms, artificial intelligence workloads, and high-performance computing systems. Built with advanced DDR5 SDRAM technology, this registered DIMM memory module delivers substantial improvements in bandwidth, memory density, energy efficiency, and reliability compared to earlier DDR4 server memory generations.

Designed specifically for enterprise servers and workstation platforms requiring dependable high-capacity memory performance, this Micron RDIMM module incorporates error correction technology, registered buffering, optimized power management, and advanced signal integrity enhancements. The 48GB capacity configuration provides balanced scalability for enterprise workloads that require significant memory resources while maintaining efficient deployment flexibility across rack servers, blade systems, storage appliances, and edge computing environments.

Advanced DDR5 Server Memory Technology

DDR5 memory technology introduces major architectural advancements that significantly improve server responsiveness and workload handling. The PC5-51200 specification indicates a theoretical bandwidth of 51,200 MB/s, enabling faster communication between processors and memory subsystems. This increased bandwidth benefits enterprise applications that rely heavily on memory throughput, including virtualization hosts, SQL databases, analytics platforms, and real-time processing systems.

The DDR5 architecture enhances burst length, bank group efficiency, and channel optimization. Compared to previous memory standards, DDR5 memory supports improved parallelism and more effective data handling under heavy multitasking conditions. Enterprise servers using DDR5 RDIMM memory can process larger datasets more efficiently while minimizing latency bottlenecks.

Improved Data Transfer Efficiency

The 6400MHz operating speed significantly increases memory transfer performance in enterprise computing environments. High-frequency DDR5 RDIMM memory modules improve processor utilization by reducing wait states and enabling faster access to cached and non-cached memory resources. This becomes particularly important in environments operating multi-core server CPUs where memory throughput directly impacts application responsiveness.

Data-intensive applications such as machine learning inference, virtual desktop infrastructure, enterprise resource planning systems, and software-defined storage platforms benefit from the enhanced throughput capabilities of DDR5-6400 server memory technology.

Enhanced Memory Channel Architecture

DDR5 memory modules feature dual independent subchannels that improve access efficiency and optimize workload distribution. This architectural enhancement enables more efficient command scheduling and increases effective memory utilization in enterprise server platforms. The result is smoother multitasking performance and improved scalability for modern workloads requiring simultaneous access to large memory pools.

48GB Memory Capacity Advantages for Enterprise Servers

The 48GB memory capacity configuration offers unique deployment advantages for enterprise and hyperscale environments. Unlike conventional 32GB or 64GB capacities, a 48GB RDIMM module provides administrators with greater flexibility when optimizing total system memory configurations. This capacity allows more granular memory scaling while supporting cost-efficient infrastructure planning.

Servers configured with multiple 48GB DDR5 RDIMM modules can achieve large aggregate memory capacities suitable for virtualization clusters, hyperconverged infrastructure, enterprise databases, and cloud-native workloads. The flexibility of 48GB modules helps organizations maximize memory resources without requiring unnecessary overprovisioning.

Optimized for Virtualization Infrastructure

Virtualized environments require large memory pools to support multiple virtual machines operating concurrently. The Micron MTC20F104XS1RC64BB2R module provides sufficient capacity and bandwidth to support high VM density while maintaining stable performance across dynamic workloads.

Virtualization platforms such as VMware ESXi, Microsoft Hyper-V, KVM, and enterprise container orchestration environments rely heavily on memory availability and throughput. DDR5 RDIMM memory enables hypervisors to allocate memory resources efficiently while reducing contention between active workloads.

Support for Cloud Computing Workloads

Cloud infrastructure platforms benefit from the scalability and efficiency of DDR5 ECC RDIMM memory. Public cloud providers, private cloud deployments, and hybrid cloud architectures require memory modules capable of handling continuous high-demand operations. The Micron 48GB RDIMM module is engineered for sustained reliability in enterprise cloud environments where uptime and responsiveness remain critical.

Cloud-native applications frequently involve distributed workloads, microservices, orchestration layers, and containerized environments. High-speed DDR5 server memory helps maintain consistent performance during workload scaling and resource allocation.

Enterprise Resource Allocation Efficiency

Efficient memory allocation improves overall server utilization and reduces infrastructure waste. By using 48GB RDIMM modules, administrators can fine-tune memory deployment strategies to align more closely with workload requirements. This optimization can reduce unused memory overhead while maintaining sufficient performance headroom for peak operating conditions.

ECC Error Correction Technology in Enterprise Memory

Error Correcting Code technology remains one of the most important features in enterprise server memory modules. The Micron MTC20F104XS1RC64BB2R includes ECC functionality designed to detect and correct memory errors automatically during operation. ECC protection enhances system stability, prevents data corruption, and improves overall server reliability.

In mission-critical enterprise environments, even minor memory errors can lead to application instability, corrupted transactions, failed workloads, or unexpected downtime. ECC RDIMM memory continuously monitors data integrity and performs automatic corrections to maintain reliable operation.

Reliability for Mission-Critical Applications

Enterprise applications such as financial systems, healthcare databases, ERP platforms, telecommunications infrastructure, and scientific computing environments require dependable memory subsystems. ECC server memory minimizes operational risks associated with transient memory faults and improves long-term infrastructure stability.

Organizations operating around-the-clock services depend on server hardware capable of maintaining data accuracy under continuous workloads. ECC RDIMM technology significantly reduces the probability of uncorrected memory errors affecting business operations.

Data Integrity Protection

Data integrity plays a central role in enterprise computing. Corrupted memory transactions can compromise databases, application states, analytics processes, and storage operations. ECC mechanisms monitor data patterns and correct single-bit errors automatically before applications experience disruption.

The Micron DDR5 ECC RDIMM module helps protect sensitive enterprise data while maintaining high-performance memory operations across intensive workloads.

Reduced Downtime and Maintenance Costs

Server instability caused by memory errors can result in costly downtime, troubleshooting expenses, and productivity loss. ECC memory contributes to improved operational continuity by reducing the likelihood of unexpected crashes or corrupted processes.

Data center administrators often prioritize ECC memory modules because they support proactive infrastructure reliability strategies. Stable memory operation simplifies long-term maintenance planning and minimizes emergency hardware replacement scenarios.

Registered DIMM Technology and Signal Integrity

The registered DIMM architecture enhances signal integrity and system scalability in enterprise servers. RDIMM modules incorporate a register between the memory controller and memory chips, reducing electrical load on the processor memory controller. This design improves stability when servers operate with multiple populated DIMM slots.

Servers designed for large memory capacities depend on RDIMM technology to maintain reliable signal transmission across extensive memory configurations. The Micron 48GB DDR5 RDIMM module supports enterprise-grade scalability while maintaining consistent operational performance.

Advantages of Registered Memory Modules

Registered memory provides significant benefits in high-density server environments. The buffering mechanism reduces electrical interference and enables systems to support larger memory populations without compromising stability. This is particularly valuable in dual-socket and quad-socket server platforms handling memory-intensive workloads.

Enterprise servers often operate with all DIMM slots populated to maximize available memory capacity. RDIMM technology ensures stable communication between processors and installed memory modules under these demanding conditions.

Improved Scalability for Enterprise Infrastructure

Scalable memory infrastructure allows organizations to expand server resources as business demands grow. DDR5 RDIMM modules provide improved scalability characteristics compared to unbuffered memory configurations. Enterprises deploying virtualization clusters, analytics systems, or large databases benefit from the ability to increase memory capacity while maintaining operational stability.

The Micron MTC20F104XS1RC64BB2R module is engineered to support scalable server deployments across enterprise and hyperscale data center environments.

High-Density Memory Population Support

Modern enterprise servers frequently require substantial memory populations to support advanced workloads. High-density RDIMM memory modules help organizations maximize server capabilities while minimizing hardware footprint requirements. Efficient memory scaling improves rack density and optimizes data center resource utilization.

CL52 Latency Performance Characteristics

The CL52 latency specification reflects optimized timing characteristics for high-speed DDR5-6400 memory operation. CAS latency represents the delay between a memory read command and the availability of requested data. Although DDR5 memory operates at higher latency numbers compared to earlier standards, the significantly increased frequency and bandwidth provide substantial overall performance gains.

Enterprise workloads benefit from the combination of high transfer rates and optimized memory timing architecture. The Micron DDR5 RDIMM module balances bandwidth efficiency with reliable latency performance for enterprise-class applications.

Performance for Data-Intensive Applications

Applications involving large datasets, analytics processing, artificial intelligence inference, and virtualization workloads require consistent memory responsiveness. DDR5 memory architecture improves command efficiency and reduces bottlenecks associated with high concurrency environments.

Organizations operating large-scale databases, business intelligence systems, and high-frequency transaction environments can benefit from the enhanced performance profile of DDR5-6400 ECC RDIMM memory.

Low-Latency Enterprise Operations

Reduced effective latency contributes to smoother application responsiveness and more efficient CPU utilization. High-performance server processors rely on fast memory access to maximize computational throughput. DDR5 RDIMM technology enables improved workload distribution and reduced contention under heavy processing conditions.

Latency optimization becomes increasingly important in environments involving real-time analytics, distributed computing, and enterprise application hosting.

288-Pin DDR5 RDIMM Physical Design

The 288-pin DIMM form factor is standardized for DDR5 server memory modules and ensures compatibility with modern enterprise server motherboards supporting DDR5 RDIMM technology. Physical design considerations include optimized trace layouts, thermal management improvements, and enhanced electrical signaling integrity.

The Micron MTC20F104XS1RC64BB2R module is engineered for reliable integration into enterprise rack servers, tower servers, blade systems, and high-performance workstation platforms requiring DDR5 registered memory.

Thermal Efficiency and Cooling Optimization

Enterprise servers generate substantial thermal output during sustained operation. Efficient memory thermal management helps maintain stable operating conditions and prolong hardware lifespan. DDR5 memory modules incorporate power management improvements and optimized electrical characteristics that contribute to lower operational power consumption compared to previous technologies.

Improved thermal efficiency benefits high-density data center environments where airflow optimization and power reduction remain important operational priorities.

Power Management Enhancements

DDR5 memory technology introduces integrated power management features designed to improve energy efficiency and voltage regulation. These enhancements contribute to more stable operation while reducing unnecessary power consumption.

Data centers seeking to optimize power usage effectiveness can benefit from the efficiency characteristics of modern DDR5 ECC RDIMM memory modules.

Compatibility with Modern Enterprise Platforms

The Micron MTC20F104XS1RC64BB2R 48GB DDR5-6400 RDIMM module is designed for compatibility with modern server platforms supporting DDR5 ECC registered memory. Enterprise motherboard and server compatibility depends on chipset support, processor generation, firmware validation, and memory configuration guidelines.

Current-generation server processors from leading enterprise CPU manufacturers are designed to leverage DDR5 bandwidth improvements and expanded memory capabilities. Organizations upgrading infrastructure to newer server architectures can benefit from the performance enhancements delivered by DDR5 RDIMM technology.

Support for Multi-Socket Server Platforms

Multi-socket servers require stable and scalable memory configurations capable of supporting extensive parallel workloads. Registered DIMM memory modules reduce electrical loading and improve signal quality across large memory arrays.

The Micron 48GB DDR5 ECC RDIMM module supports enterprise deployment scenarios involving high-core-count processors and memory-intensive enterprise applications.

Enterprise Workstation Compatibility

Professional workstations used for engineering simulations, content creation, AI development, CAD rendering, and scientific analysis can also benefit from DDR5 ECC RDIMM memory technology. High-capacity memory configurations improve multitasking performance and enable efficient handling of complex project datasets.

Workstation environments demanding high reliability and computational consistency frequently utilize ECC registered memory to reduce operational interruptions.

Applications for DDR5-6400 ECC RDIMM Server Memory

The Micron MTC20F104XS1RC64BB2R memory module supports a broad range of enterprise computing applications requiring dependable high-speed memory infrastructure. Organizations deploying advanced computing environments can leverage DDR5 performance improvements to support evolving workload demands.

Artificial Intelligence and Machine Learning Infrastructure

AI and machine learning workloads require rapid memory access and large data throughput capabilities. Training models, processing inference operations, and handling extensive datasets place significant demands on server memory architecture. DDR5-6400 ECC RDIMM memory helps accelerate data movement and improve computational efficiency in AI-enabled systems.

High-bandwidth memory becomes especially valuable in GPU-accelerated computing environments where processors and accelerators exchange substantial volumes of data during training and analytics operations.

Big Data Analytics Platforms

Big data environments depend on fast memory subsystems to process large-scale datasets efficiently. Enterprise analytics frameworks, business intelligence applications, and distributed database systems benefit from DDR5 memory bandwidth improvements.

The Micron DDR5 RDIMM module supports analytics workloads requiring rapid data ingestion, query processing, and real-time reporting capabilities.

High-Performance Computing Environments

Scientific simulations, engineering computations, and research applications frequently require substantial memory resources and fast throughput performance. High-performance computing clusters depend on efficient memory architectures to maximize processing capabilities across parallel workloads.

DDR5 ECC RDIMM technology improves workload scalability while maintaining the reliability standards required for research and computational modeling environments.

Micron Enterprise Memory Manufacturing Quality

Micron is recognized globally for producing enterprise-grade memory products engineered for reliability, compatibility, and long-term operational stability. Enterprise server memory modules undergo rigorous testing and validation processes to ensure consistent performance across demanding workloads.

The Micron MTC20F104XS1RC64BB2R module reflects advanced semiconductor manufacturing expertise and enterprise reliability engineering practices. Organizations deploying critical infrastructure often prioritize memory vendors with proven data center experience and validated enterprise product portfolios.

Rigorous Validation and Testing Standards

Enterprise memory modules are tested under various thermal, electrical, and operational conditions to ensure compatibility and reliability across supported server platforms. Validation procedures help identify potential interoperability issues before deployment in production environments.

Reliable server memory contributes to stable infrastructure performance and reduces risks associated with unexpected hardware behavior.