MTC20C2085S1BC64BD1 Micron 32GB DDR5 6400MHz PC5-51200 CL52 Dual Rank Memory

Overview of Micron MTC20C2085S1BC64BD1 32GB Memory

The MICRON MTC20C2085S1BC64BD1 is a high-performance 32GB DDR5 SDRAM memory module designed for servers and advanced computing systems. Featuring a blazing 6400 MT/s speed and PC5-51200 standard, this module ensures reliable performance for demanding applications.

General Information

• Manufacturer: Micron 
• Part Number: MTC20C2085S1BC64BD1
• Product Type: Memory Module

Technical Specifications

• Total Memory: 32GB
• Memory Standard: DDR5-6400 / PC5-51200
• CAS Latency: CL52
• Memory Speed: 6400mt/s
• Memory Standard: DDR5-6400mt/s/ PC5-51200
• Form Factor: 288-pin Dimm
• Voltage: 1.1v
• Chip Organization: X8
• Memory Rank: Dual-rank
• Signal Processing: Clocked
• Error Checking: ECC

Electrical & Chip Details

• Voltage: 1.1V for energy-efficient operation
• Chip Layout: x8 configuration

Module Size & Form Factor

• Form Factor: 288-pin DIMM suitable for server slots
• Width: 1.2 inches
• Depth: 5.2 inches
• Height: 0.2 inches

Shipping Details

• Shipping Dimensions (W × D × H): 7 × 0.2 × 2.2 inches
• Shipping Weight: 0.2 lb

The Micron MTC20C2085S1BC64BD1 32GB DDR5 ECC Memory 

The Micron MTC20C2085S1BC64BD1 32GB DDR5-6400 memory module represents a significant advancement in server-grade memory solutions. Designed with high-performance computing environments in mind, this module integrates DDR5 technology, offering unmatched speed, stability, and energy efficiency. The 32GB capacity enables high-density server configurations, supporting extensive workloads, virtualization, and memory-intensive applications with ease. Its unbuffered architecture combined with ECC error correction ensures optimal reliability for mission-critical systems.

DDR5 Technology and Performance

DDR5 represents the next leap in dynamic random-access memory, providing substantial improvements over DDR4. The Micron MTC20C2085S1BC64BD1 achieves data transfer speeds of up to 6400 MT/s, allowing servers to process information faster and more efficiently. This enhanced bandwidth supports high-performance computing, AI-driven workloads, and real-time analytics. The module's architecture minimizes latency while maximizing throughput, ensuring smooth performance even under demanding multitasking scenarios.

Energy Efficiency and Power Optimization

The 1.1V operating voltage of this DDR5 memory module delivers significant energy savings compared to previous generations. Lower voltage reduces heat output and power consumption, which is particularly important for data centers and large server farms. By decreasing overall energy requirements, organizations can maintain cooler systems, extend hardware lifespan, and optimize operational costs without sacrificing performance.

32GB High-Capacity Memory Module

The 32GB capacity of the Micron MTC20C2085S1BC64BD1 module offers ample space for modern server workloads. Large memory sizes are essential for applications such as database management, virtualization, big data processing, and cloud computing. This capacity allows servers to run multiple virtual machines simultaneously while maintaining system responsiveness, enabling organizations to maximize server utilization.

Dual Rank Advantages

This memory module features a dual rank design, which enhances data access efficiency and improves overall memory performance. Dual rank modules can interleave memory operations, allowing parallel processing of multiple data streams. This results in reduced latency and higher effective memory bandwidth, which is crucial for high-demand server environments. The dual rank configuration also enables better scalability in multi-module setups, supporting larger memory configurations with improved reliability.

Error-Correcting Code (ECC) 

Error-Correcting Code (ECC) memory is essential in server environments where data integrity and system stability are critical. The Micron MTC20C2085S1BC64BD1 module incorporates ECC technology to detect and correct single-bit errors automatically, preventing potential data corruption. This feature is particularly valuable for mission-critical applications such as financial transactions, scientific computing, and enterprise databases, where data accuracy is paramount.

Enhanced System Stability

ECC memory not only protects against data errors but also contributes to overall system stability. By continuously monitoring and correcting memory errors in real-time, ECC memory reduces the risk of system crashes, downtime, and data loss. This stability ensures that enterprise servers can operate continuously under heavy workloads, maintaining performance and reliability for demanding applications.

Unbuffered CUDIMM Form Factor

Compact Unbuffered Design

The Micron MTC20C2085S1BC64BD1 module is an unbuffered CUDIMM, making it ideal for standard server platforms and workstation configurations. Unbuffered memory offers lower latency than registered memory, providing faster data access. Its compact 288-pin CUDIMM form factor ensures compatibility with a wide range of server and workstation motherboards, making it a flexible option for system upgrades and high-performance memory expansions.

Compatibility and Upgrade Potential

This module is engineered to seamlessly integrate with modern server architectures supporting DDR5 memory. Its compatibility with multiple operating systems and motherboard configurations allows IT administrators to upgrade existing systems without extensive hardware changes. The module’s design facilitates easy installation and enables scaling of memory capacity according to evolving workload requirements, providing long-term upgrade potential and cost efficiency.

High-Speed Data Transfer and Latency Optimization

6400 MT/s Transfer Rate

The Micron MTC20C2085S1BC64BD1 operates at an impressive 6400 MT/s, significantly enhancing data throughput for memory-intensive applications. High-speed transfer rates reduce bottlenecks in data processing, enabling faster computation and analysis. This performance boost is especially beneficial in environments where multiple applications run concurrently, such as virtualized servers, big data analytics, and high-performance computing clusters.

CL52 CAS Latency 

With a CL52 CAS latency, this module balances speed and reliability, delivering efficient access to stored data. Lower latency memory modules allow CPUs to retrieve data more quickly, improving system responsiveness and application performance. The combination of high transfer rates and optimized latency ensures that servers can handle demanding workloads efficiently while maintaining stability and reliability.

High-Performance Computing

Beyond traditional servers, this module is also compatible with high-performance workstations used in engineering, scientific research, and content creation. DDR5 memory modules provide the computational power needed for complex simulations, 3D rendering, AI development, and large-scale data processing. The unbuffered design ensures minimal latency, allowing workstations to achieve peak performance during intensive tasks.

Comparisons with DDR4 Modules

Compared to DDR4, the MTC20C2085S1BC64BD1 DDR5 module offers higher bandwidth, improved power efficiency, and enhanced memory reliability. DDR5 modules support larger capacities per stick, more sophisticated ECC integration, and better handling of simultaneous data streams. Users upgrading from DDR4 can expect measurable improvements in multitasking, application load times, and system responsiveness. In server deployments, DDR5’s higher data rate and on-die ECC result in greater uptime and reduced risk of data corruption compared to legacy DDR4 modules.

Thermal Management and Longevity

Efficient thermal management is a key feature of this memory module. Operating at lower voltages and optimized design reduces heat generation, which extends module longevity and reduces system cooling requirements. This contributes to lower operational costs for enterprises and ensures uninterrupted performance in high-density server configurations.

Compatibility and System Integration

The Micron MTC20C2085S1BC64BD1 module is compatible with a wide range of server and workstation motherboards supporting DDR5 CUDIMM memory. This flexibility allows IT teams to integrate these modules into existing infrastructures without compatibility concerns. The module supports multiple memory configurations, making it ideal for scalable server architectures and mixed memory setups.