MTC20F208XS1RC64BB2R Micron 48GB DDR5 6400MHz PC5-51200 CL52 ECC RAM

Overview of Micron MTC20F208XS1RC64BB2R 48GB DDR5 Ram

The Micron MTC20F208XS1RC64BB2R 48GB DDR5 Registered ECC memory module is designed for modern server infrastructures requiring high bandwidth, stability, and scalability. Built on DDR5 SDRAM architecture, this RDIMM delivers efficient multitasking performance for enterprise workloads, virtualization, and cloud computing environments.

General Specifications

• Manufacturer: Micron
• Part Number: MTC20F208XS1RC64BB2R
• Product Type: Server Memory Module (RDIMM)

Technical Product Information

• Memory Size: 48GB
• Memory Type: ECC Registered RAM
• Memory Technology: DDR5 SDRAM
• Standard: DDR5-6400 / PC5-51200
• Speed: 6400 MHz

Latency and Reliability

• CAS Latency: CL52 (52-52-52)
• Error Correction: ECC (Error-Correcting Code)
• Signal Type: Registered (Buffered RDIMM)
• Rank Structure: 2Rx8 Dual Rank
• Voltage: 1.1V

Compatibility

Supported Platforms

• Enterprise servers
• High-performance computing systems
• Workstations and professional motherboards

Physical Characteristics

Module Design

• Form Factor: 288-pin RDIMM
• Dimensions: 177.8 mm × 54.7 mm × 6.35 mm
• Weight: Approx. 90 g (0.20 lb)

Highlights of Micron MTC20F208XS1RC64BB2R PC5-51200 Ram

The Micron MTC20F208XS1RC64BB2R 48GB DDR5 6400MHz PC5-51200 CL52 ECC 1.1V Dual Rank 288-Pin RDIMM Server Memory Module is a high-end enterprise memory solution designed for next-generation data center environments that demand extreme bandwidth, high capacity, and maximum reliability. Built using advanced DDR5 architecture, this module delivers significant performance improvements over DDR4 memory while maintaining strict enterprise-grade stability requirements.

Next-Generation DDR5 Architecture

The DDR5 memory standard introduces a major leap in performance, efficiency, and scalability compared to previous generations. It increases memory bandwidth and improves internal efficiency to handle modern multi-core processors more effectively. The Micron 48GB module operates at 6400MHz, allowing rapid data movement between CPU and memory subsystems. This architecture is optimized for parallel processing environments commonly found in enterprise servers and hyperscale infrastructure.

Improved Internal Bank Structure

DDR5 introduces a more advanced bank structure that allows increased parallelism in memory operations. This reduces contention and improves data access efficiency under heavy workloads. The improved architecture helps servers process multiple simultaneous requests without bottlenecks. This is essential for modern data-driven enterprise applications.

Enhanced Burst Length and Data Efficiency

The DDR5 architecture increases burst length capabilities, enabling more data to be transferred per memory operation. This results in improved throughput and reduced latency in high-performance systems. It allows servers to handle large datasets more efficiently. This contributes to smoother application performance in enterprise environments.

48GB High-Capacity RDIMM

The 48GB capacity per module provides an optimal balance between density and scalability for modern server environments. It allows organizations to maximize memory capacity while minimizing DIMM slot usage. This is particularly important in virtualization and cloud computing systems where memory allocation efficiency is critical. Higher capacity modules reduce hardware complexity and improve system scalability.

Memory Slot Utilization in Servers

By using higher-capacity modules, data centers can reduce the total number of DIMM slots required to achieve large memory configurations. This improves system efficiency and allows better airflow and thermal management. It also reduces hardware costs in large-scale deployments. Efficient slot utilization is essential for hyperscale environments.

Dense Virtual Machine Deployments

The 48GB capacity supports dense virtual machine environments where multiple VMs require dedicated memory resources. It enables efficient workload distribution across physical servers. This improves overall virtualization performance and scalability. It is ideal for enterprise virtualization platforms.

6400MHz High-Speed Frequency

Operating at 6400MHz, this DDR5 RDIMM delivers extremely high memory bandwidth suitable for demanding enterprise workloads. Faster frequency enables rapid data transfer between memory and CPU, improving system responsiveness. This is particularly beneficial for AI workloads, real-time analytics, and large-scale scientific computing. High frequency ensures reduced latency and improved throughput.

Accelerated Data Processing

High-speed memory significantly reduces data processing delays in enterprise systems. It enables faster execution of complex computational tasks. This improves application responsiveness in high-demand environments. Accelerated processing is critical for modern IT infrastructure.

Performance for Multi-Core CPUs

Modern server CPUs rely heavily on memory bandwidth to maximize performance. The 6400MHz frequency ensures that multiple CPU cores can access data efficiently. This reduces memory bottlenecks and improves parallel processing efficiency. It enhances overall system performance in multi-threaded workloads.

PC5-51200 Memory Standard

The PC5-51200 specification defines the bandwidth and performance capabilities of DDR5 memory modules. It ensures compatibility with modern server platforms designed for high-speed memory operation. This standard guarantees predictable performance across enterprise systems. It simplifies integration into existing data center infrastructures.

Standardized Performance Across Server Platforms

Standardization ensures consistent memory performance across compatible hardware platforms. This reduces compatibility issues and improves system reliability. It allows organizations to deploy memory modules confidently across different server models. Standardized performance is essential for enterprise environments.

Predictable Bandwidth for Mission-Critical Workloads

Predictable memory bandwidth ensures stable performance for mission-critical applications. It reduces variability in system behavior under load. This improves reliability for enterprise workloads such as databases and cloud services. Predictability is essential for production environments.

ECC Registered DIMM for Advanced Data Protection

Error Correcting Code (ECC) Registered DIMM technology provides advanced memory error detection and correction capabilities. It ensures data integrity by automatically correcting memory errors before they affect system performance. This is critical for enterprise systems where data accuracy is essential. ECC memory significantly improves system reliability and stability.

Reduced Risk of System Failures

By correcting memory errors, ECC reduces the likelihood of system failures caused by corrupted data. This is especially important in mission-critical applications. It improves uptime and system reliability. Reduced failure risk is essential for enterprise infrastructure.

1.1V Low Voltage Operation

The DDR5 architecture operates at a reduced voltage of 1.1V, improving energy efficiency compared to DDR4 modules. Lower voltage reduces power consumption and heat generation in server environments. This contributes to lower operational costs and improved sustainability. Energy efficiency is a key factor in modern data center design.

Reduced Heat Generation

Lower voltage operation reduces thermal output, improving cooling efficiency in server racks. This helps maintain stable operating temperatures. It reduces strain on cooling systems. Thermal efficiency is essential for hyperscale data centers.

Dual Rank Architecture

The dual rank configuration allows the memory module to access multiple sets of memory banks simultaneously. This improves data throughput and enhances system efficiency. It enables better memory interleaving and CPU utilization. Dual rank design is widely used in enterprise-grade memory modules for optimized performance.

Improved Memory Interleaving

Memory interleaving allows multiple memory banks to be accessed in parallel, improving throughput. This reduces latency and enhances system responsiveness. It is essential for high-performance computing environments. Improved interleaving increases efficiency.

Balanced Workload Distribution Across Memory Channels

Dual rank architecture helps distribute workloads evenly across memory channels. This reduces bottlenecks and improves system stability. It enhances performance in multi-threaded applications. Balanced distribution improves efficiency.

288-Pin RDIMM Form Factor for Server Integration

The 288-pin registered DIMM form factor ensures compatibility with modern server motherboards designed for DDR5 memory. It provides stable electrical signaling and reliable performance in multi-module configurations. This form factor is widely used in enterprise servers and data centers. It enables scalable memory expansion for high-performance systems.

Stable Electrical Signal Integrity in Servers

Registered DIMM architecture improves signal stability between memory and CPU. This reduces errors and improves reliability in high-speed environments. It ensures consistent performance under heavy workloads. Signal integrity is critical for enterprise systems.

Scalable Multi-DIMM Configurations

The RDIMM design supports multiple memory modules in a single system without performance degradation. This enables large memory configurations for enterprise workloads. It supports scalability in modern data centers. Scalability is essential for growing IT environments.

Cloud Computing Infrastructure

The Micron DDR5 RDIMM is designed for cloud environments that require scalable and high-speed memory performance. It supports multi-tenant workloads and distributed computing systems. Cloud providers benefit from improved resource allocation and reduced latency. This makes it ideal for private, hybrid, and public cloud deployments.

Multi-Tenant Resource Allocation

Cloud environments require efficient distribution of memory resources across multiple tenants. This module supports dynamic allocation with high efficiency. It improves performance isolation between workloads. Resource efficiency is essential for cloud computing.

Improved Cloud Service Responsiveness

Faster memory access improves responsiveness of cloud-based applications. It reduces latency and enhances user experience. This is critical for modern SaaS platforms. Improved responsiveness enhances service quality.

Machine Learning and High-Performance

The Micron DDR5 RDIMM is well-suited for AI and machine learning workloads requiring large memory bandwidth and capacity. It accelerates model training and inference processes. High-speed memory reduces computational delays. This makes it ideal for advanced HPC environments.

Faster Neural Network Training Cycles

AI training requires fast access to large datasets stored in memory. This module reduces training time by improving data throughput. It enhances machine learning efficiency. Faster training improves productivity.

In-Memory Data Processing

In-memory processing reduces dependency on slower storage systems. This improves computational efficiency in AI workloads. It allows faster execution of algorithms. Efficiency is critical for AI systems.