MTC20C2085S1BC64BR Micron 32GB 6400MHz PC5-51200 DDR5 CL52 Memory

Overview of MICRON MTC20C2085S1BC64BR 32GB Memory

The MICRON MTC20C2085S1BC64BR is a high-performance DDR5 SDRAM memory module designed for servers and professional computing systems. With advanced specifications, this 32GB module delivers exceptional speed, reliability, and energy efficiency.

General Information

• Manufacturer: Micron
• Part Number: MTC20C2085S1BC64BR
• Product Type: Memory Module

Technical Specifications

• Capacity: 32GB
• Technology: DDR5 SDRAM
• Standard: DDR5-6400 MT/s, PC5-51200
• Speed: 6400 MT/s
• CAS Latency: CL52 (52-52-52)
• Error Correction: ECC (Error-Correcting Code)
• Signal Type: Clocked
• Memory Rank: Dual-rank
• Chip Configuration: x8
• Operating Voltage: 1.1V
• Form Factor: 288-pin DIMM

Physical Dimensions

• Module Width: 1.2 inches
• Module Depth: 5.2 inches
• Module Height: 0.2 inches
• Shipping Dimensions: 7 x 0.2 x 2.2 inches (W x H x D)
• Weight: 0.2 lb

The Micron MTC20C2085S1BC64BR 32GB DDR5 ECC Memory 

The Micron MTC20C2085S1BC64BR 32GB DDR5 memory module represents the pinnacle of modern server memory technology. Engineered for high-performance computing environments, this memory module provides unmatched reliability, speed, and efficiency for data-intensive applications. With a memory capacity of 32GB, operating at an impressive 6400MHz (PC5-51200), this DDR5 module ensures that servers and workstations maintain optimal responsiveness under the heaviest workloads. The module is designed as ECC unbuffered dual rank, delivering enhanced error correction capabilities while maintaining minimal latency, which is critical for maintaining system stability in enterprise-level deployments.

Advanced DDR5 Technology

The Micron MTC20C2085S1BC64BR employs cutting-edge DDR5 SDRAM technology, the latest standard in high-speed memory modules. DDR5 memory offers significant improvements over DDR4, including higher bandwidth, improved channel efficiency, and lower power consumption. This memory module’s architecture supports dual-rank configuration, effectively doubling the number of accessible memory banks and enhancing data transfer efficiency. The module operates at a low voltage of 1.1V, which contributes to reduced heat generation and improved energy efficiency, making it ideal for densely populated server racks and energy-conscious data centers.

High-Speed Performance Capabilities

Operating at 6400MT/s, the Micron MTC20C2085S1BC64BR is designed to provide lightning-fast data throughput. This speed ensures that memory-intensive applications, such as virtualization, high-performance computing, and database management, experience minimal latency and maximum responsiveness. The module’s CL52 timing ensures precise data delivery, optimizing both read and write operations across multiple workloads. High-speed performance also supports advanced multitasking, allowing enterprise systems to handle simultaneous processes without compromise.

ECC Unbuffered Memory for Reliability

Error-correcting code (ECC) technology is essential in enterprise and mission-critical systems. The Micron MTC20C2085S1BC64BR includes ECC capabilities that detect and correct single-bit memory errors automatically, preventing data corruption and system crashes. As an unbuffered memory module, it interfaces directly with the memory controller, providing faster access times while maintaining system integrity. The combination of ECC with unbuffered dual-rank configuration ensures that memory errors are minimized without sacrificing performance.

Memory Module Design and Compatibility

The Micron MTC20C2085S1BC64BR is built as a 288-pin CUDIMM, designed for seamless installation in modern server platforms and high-end workstations. The module adheres strictly to JEDEC standards, guaranteeing broad compatibility across a variety of server motherboards that support DDR5 memory. Its compact design and standard pin layout simplify upgrades, replacements, and expansions in both small and large-scale computing environments. Dual-rank architecture enhances compatibility with multi-channel memory configurations, enabling optimal memory utilization for complex workloads.

Power Efficiency and Thermal Management

One of the standout features of DDR5 memory is its energy efficiency, and the Micron MTC20C2085S1BC64BR exemplifies this advantage. Operating at only 1.1V, it consumes significantly less power compared to earlier DDR4 modules, which typically operate at 1.2V or higher. Reduced voltage translates to lower heat production, decreasing the need for extensive cooling solutions and contributing to longer module lifespan. Efficient thermal management ensures that the module performs reliably under continuous heavy workloads, maintaining data integrity and system stability over prolonged periods of operation.

Dual Rank Memory Advantages

Dual-rank memory modules, like the Micron MTC20C2085S1BC64BR, provide significant advantages in terms of performance and memory bandwidth. By utilizing two ranks of memory chips, the module can alternate access between ranks, effectively reducing wait states and improving throughput. This architecture enhances performance in multi-threaded applications and large-scale data processing environments, where memory access patterns are highly concurrent. Dual-rank memory also contributes to better system stability, as workloads are distributed across multiple memory banks, reducing the likelihood of bottlenecks.

Precision Timing and Latency Optimization

The module features CL52 latency, a measure of the delay between a memory command and its execution. In high-performance computing environments, low latency is crucial for maintaining application responsiveness. The Micron MTC20C2085S1BC64BR’s precise timing ensures that data is delivered accurately and promptly, even under intensive operations. This level of timing precision is especially important for database servers, virtualization hosts, and scientific computing applications that require consistent, predictable memory performance.

Reliability and Data Integrity Features

Micron’s engineering emphasis on reliability is evident in the MTC20C2085S1BC64BR memory module. ECC technology is fundamental in maintaining data integrity by automatically detecting and correcting single-bit errors. This capability prevents system crashes and data corruption, ensuring uninterrupted operations in mission-critical environments. Additionally, unbuffered design and high-quality memory chips contribute to consistent performance under fluctuating workloads. These features make the module suitable for environments where reliability is non-negotiable, including financial computing, healthcare, and scientific research.

Compatibility with Modern Server Platforms

The 288-pin CUDIMM layout ensures that the module is compatible with a wide range of modern server motherboards supporting DDR5 memory. It can operate seamlessly in both single-module and multi-module configurations, enabling system administrators to optimize memory resources according to workload requirements. Compatibility extends to dual-channel and quad-channel architectures, maximizing data throughput and system efficiency. IT professionals benefit from simplified integration and deployment, reducing downtime during upgrades or replacements.

Future-Proofing with DDR5 Technology

Investing in DDR5 memory ensures compatibility with next-generation server platforms and software applications. The Micron MTC20C2085S1BC64BR offers high-speed performance, large capacity, and advanced error correction, making it a future-proof choice for expanding IT infrastructure. As memory-intensive applications continue to evolve, DDR5 modules provide the necessary speed, stability, and reliability to handle increasing workloads without frequent upgrades.