MTC20F104XS1RC56BT Micron 48GB 5600MT/s PC5-44800 CL46 ECC DDR5 SDRAM

Enterprise-Class 48GB 5600MHz DDR5 Registered Memory

The Micron MTC20F104XS1RC56BT 48GB DDR5 memory module represents a high-capacity, high-speed solution designed for enterprise servers, data centers, and professional workstation environments that demand reliability, scalability, and consistent performance. As part of the DDR5 SDRAM generation, this memory module operates at 5600MT/s and adheres to the PC5-44800 specification, delivering substantially higher bandwidth compared to previous DDR4 registered memory technologies. This category of DDR5 ECC Registered memory is engineered to support advanced computing workloads, including virtualization, database management, cloud infrastructure, analytics, and AI-driven applications.

DDR5 Registered DIMMs, commonly referred to as RDIMMs, are specifically built to enhance signal integrity and system stability in multi-DIMM server configurations. The presence of a register between the memory controller and the DRAM chips reduces electrical load, allowing systems to support larger memory capacities while maintaining reliable data transmission. In enterprise computing environments where uptime, data accuracy, and predictable performance are critical, DDR5 RDIMM modules like the Micron MTC20F104XS1RC56BT are a foundational component.

High-Density 48GB Capacity for Scalable Architectures

The 48GB capacity of this Micron DDR5 RDIMM places it within a specialized subcategory of high-density memory modules optimized for servers that require flexible memory population strategies. Unlike standard capacities such as 32GB or 64GB, a 48GB module allows system architects to achieve higher total memory capacities while optimizing DIMM slot utilization. This is particularly valuable in dual-socket and multi-socket server platforms where balancing memory channels and ranks is essential for maximizing bandwidth and minimizing latency.

High-density modules enable greater consolidation of workloads by supporting larger in-memory datasets. Enterprise applications such as in-memory databases, virtualization platforms, and enterprise resource planning systems benefit significantly from increased memory capacity. By reducing reliance on slower storage tiers, servers equipped with 48GB DDR5 RDIMMs can deliver faster query responses, improved application responsiveness, and enhanced overall system efficiency.

Optimized for Multi-Channel Server Memory Configurations

Server platforms from leading CPU manufacturers are designed to leverage multi-channel memory architectures, and DDR5 RDIMMs are integral to this design. The Micron MTC20F104XS1RC56BT is engineered to operate efficiently across multiple memory channels, ensuring balanced data throughput and reduced contention. This optimization is critical for workloads that rely on parallel processing, where memory bandwidth directly influences compute performance.

By supporting advanced memory interleaving techniques, high-density DDR5 RDIMMs help servers maintain consistent performance even under heavy load. This category of memory is particularly suitable for enterprise systems that host multiple virtual machines or containerized applications, where predictable memory behavior is essential.

5600MT/s Speed and PC5-44800 Bandwidth Advantages

Operating at a data rate of 5600MT/s, this DDR5 memory module delivers a theoretical bandwidth of up to 44.8GB/s per DIMM. This significant increase over DDR4 bandwidth enables faster data transfers between the CPU and memory, reducing bottlenecks in data-intensive workloads. The PC5-44800 classification highlights its suitability for next-generation server platforms that are designed to exploit higher memory speeds.

Higher memory bandwidth directly benefits applications such as real-time analytics, high-performance computing, and machine learning inference. In these scenarios, the ability to rapidly move large volumes of data into and out of memory can dramatically improve processing times. DDR5 technology also introduces architectural enhancements, such as dual independent 32-bit channels per DIMM, further improving efficiency and parallelism.

CL46 Latency Characteristics in Enterprise Contexts

The CAS latency of CL46 is optimized for DDR5 server memory, balancing higher operating frequencies with stable access timings. While raw latency numbers may appear higher compared to older generations, the overall performance is significantly improved due to increased bandwidth and architectural enhancements. In enterprise environments, throughput and consistency often outweigh minimal latency differences, making CL46 an appropriate choice for high-speed registered DDR5 modules.

Latency optimization in DDR5 RDIMMs is complemented by advanced memory controller designs in modern server CPUs. Together, they ensure efficient scheduling of memory transactions, minimizing performance penalties and maintaining responsiveness under heavy workloads.

ECC Registered Architecture for Data Integrity

Error Correcting Code functionality is a defining feature of this memory category. The Micron MTC20F104XS1RC56BT includes ECC capabilities that automatically detect and correct single-bit memory errors, as well as detect multi-bit errors. In mission-critical server environments, data integrity is paramount, and ECC memory significantly reduces the risk of data corruption, system crashes, and unpredictable behavior.

Registered memory further enhances reliability by buffering address and command signals. This design reduces electrical noise and improves signal timing, especially in systems populated with multiple DIMMs. As a result, servers can achieve higher memory capacities without sacrificing stability or performance.

Importance of ECC in Enterprise and Data Center Deployments

In data centers and enterprise IT infrastructures, even minor data errors can lead to significant operational and financial consequences. ECC memory is essential for maintaining the accuracy of computations, particularly in applications involving financial transactions, scientific simulations, and large-scale data processing. This category of DDR5 ECC RDIMM memory is therefore a standard requirement for professional-grade server deployments.

By proactively correcting errors at the hardware level, ECC memory reduces the burden on software-based error handling and enhances overall system resilience. This contributes to improved uptime, lower maintenance costs, and increased confidence in system reliability.

DDR5 SDRAM Technology Enhancements

DDR5 SDRAM introduces several technological advancements over previous generations, making it well-suited for modern enterprise workloads. These enhancements include increased bank groups, improved burst lengths, and on-DIMM voltage regulation. The Micron MTC20F104XS1RC56BT leverages these features to deliver higher efficiency and performance consistency.

On-DIMM voltage regulation shifts power management responsibilities from the motherboard to the memory module itself. This allows for more precise voltage control, reducing power fluctuations and improving signal integrity. In large server deployments, improved power efficiency can contribute to reduced energy consumption and lower cooling requirements.

Dual Independent Memory Channels per DIMM

One of the key architectural changes in DDR5 is the introduction of dual independent memory channels within a single DIMM. This design allows for greater parallelism and improved utilization of the memory bus. For enterprise applications that involve concurrent data access patterns, this results in smoother performance and reduced contention.

The dual-channel architecture also enhances error management and refresh efficiency, contributing to overall system stability. In high-density server configurations, these improvements are particularly valuable for maintaining consistent performance across all memory modules.

288-Pin Form Factor and Server Compatibility

The Micron MTC20F104XS1RC56BT utilizes the standard 288-pin DDR5 DIMM form factor, ensuring compatibility with a wide range of modern server motherboards and platforms that support DDR5 registered memory. This form factor is designed for secure installation and reliable electrical connections, essential for long-term operation in enterprise environments.

Compatibility with leading server platforms allows organizations to integrate this memory module into existing infrastructure upgrades or new system builds. The standardized form factor simplifies procurement, installation, and maintenance, reducing deployment complexity.

Designed for Next-Generation Server CPUs

Modern server processors are optimized to take full advantage of DDR5 memory capabilities. The Micron MTC20F104XS1RC56BT is engineered to align with the memory controller requirements of next-generation CPUs, ensuring optimal performance and stability. This alignment is critical for achieving maximum throughput and minimizing compatibility issues.

As server architectures continue to evolve, DDR5 RDIMM memory modules provide a future-ready foundation that supports higher core counts, increased memory channels, and advanced workload demands.

Consistency Across Large-Scale Deployments

In enterprise IT environments, consistency across hardware components is essential for predictable performance and simplified management. Micron memory modules are designed to deliver uniform performance characteristics, enabling IT teams to deploy them across large server fleets with confidence.

Consistent memory behavior simplifies troubleshooting, capacity planning, and performance tuning, contributing to more efficient IT operations.

Thermal Efficiency and Power Optimization

DDR5 memory technology emphasizes improved power efficiency, and the Micron MTC20F104XS1RC56BT is no exception. Operating at optimized voltages and incorporating advanced power management features, this module helps reduce overall system power consumption while maintaining high performance.

Thermal efficiency is particularly important in dense server environments, where heat dissipation can impact system reliability. By maintaining stable operating temperatures, DDR5 RDIMM memory supports sustained performance and extends component lifespan.

Role in Energy-Efficient Data Centers

Energy efficiency is a key consideration for modern data centers seeking to reduce operational costs and environmental impact. High-performance DDR5 memory modules contribute to these goals by delivering greater performance per watt compared to previous generations.

By enabling faster data processing with lower power requirements, this category of memory supports the development of greener, more sustainable IT infrastructures.

Use Cases Across Enterprise and Professional Workloads

The Micron MTC20F104XS1RC56BT 48GB DDR5 ECC Registered memory module is well-suited for a wide range of enterprise and professional applications. Virtualization platforms benefit from its high capacity and bandwidth, allowing more virtual machines to operate concurrently with consistent performance.

Database servers leverage the increased memory bandwidth to accelerate query processing and transaction handling. High-performance computing workloads, including simulations and modeling, take advantage of the improved data throughput and reliability offered by DDR5 RDIMM memory.

Support for Cloud and AI-Driven Applications

Cloud computing environments require scalable, reliable memory solutions to support dynamic workloads and rapid resource allocation. DDR5 ECC Registered memory provides the foundation for cloud infrastructure that can adapt to changing demands while maintaining data integrity.

AI-driven applications, particularly inference and data preprocessing tasks, benefit from high memory bandwidth and capacity. By enabling faster access to large datasets, this memory category helps accelerate AI workflows and improve overall system responsiveness.