MEM-DR416LD-ER32 Supermicro 16GB DDR4 SDRAM 3200MHz Rdimm Memory Module

Supermicro 16GB DDR4 ECC Memory 

The Supermicro MEM-DR416LD-ER32 is a high-performance DDR4 SDRAM memory module designed to deliver reliable speed, stability, and efficiency for enterprise-grade systems.

General Details

• Manufacturer: Supermicro
• Part Number: MEM-DR416LD-ER32
• Device Type: 16GB DDR4 RDIMM 3200MHz Dual Rank

Technical Specifications

Capacity & Technology

• Storage Size: 16GB
• Memory Type: DDR4 SDRAM
• Module Count: 1 x 16GB

Performance Attributes

• Bus Speed: 3200MHz DDR4-25600 / PC4-3200
• Error Correction: ECC (Error-Correcting Code)
• Signal Processing: Registered
• Latency Timing: CL22
• Rank Configuration: 2Rx8

Physical Characteristics

Form Factor

• 288-Pin RDIMM

Dimensions & Weight

• Height: 1.00 inch
• Depth: 6.75 inches
• Weight: 0.20 lb

MEM-DR416LD-ER32 16GB DDR4 ECC Registered RAM Overview

The category centered around the Supermicro MEM-DR416LD-ER32 16GB 3200MHz PC4-25600 CL22 ECC Registered Dual Rank x8 1.2V DDR4 SDRAM 288-Pin RDIMM memory module represents a highly specialized segment within enterprise-grade server memory solutions. Designed to meet the demands of modern data centers, virtualization environments, and high-performance computing infrastructures, this category focuses on reliability, scalability, and consistent performance under heavy workloads. These memory modules are not intended for casual consumer desktops but instead cater to servers and workstations where data integrity and uptime are critical priorities.

Understanding DDR4 RDIMM Technology in Enterprise Environments

DDR4 Registered Dual Inline Memory Modules, commonly referred to as RDIMMs, are engineered specifically for server-class systems. The defining feature of registered memory is the presence of a register that buffers command and address signals between the memory controller and the DRAM modules. This buffering reduces the electrical load on the memory controller, enabling systems to support more memory modules without compromising stability. In large-scale deployments where multiple DIMMs are installed across several channels, RDIMM technology ensures consistent signal integrity and reliable communication.

The Supermicro MEM-DR416LD-ER32 falls squarely within this RDIMM category, providing enhanced scalability compared to unbuffered DIMMs. This is particularly important for multi-socket servers that require large memory capacities to handle complex workloads such as database management systems, virtualization platforms, and cloud computing frameworks. The ability to populate more DIMMs per channel without sacrificing performance makes RDIMMs indispensable in enterprise environments.

Memory Speed and Bandwidth Capabilities

Operating at a speed of 3200MHz, this memory module adheres to the PC4-25600 standard, delivering high data transfer rates that significantly improve system responsiveness. The increased bandwidth allows processors to access data more quickly, which is crucial for applications that rely on real-time processing and large datasets. High-frequency memory like this ensures that bottlenecks are minimized, enabling servers to maintain optimal throughput even under demanding workloads.

The CL22 latency specification reflects a balanced approach between speed and stability. While lower latency is generally desirable, enterprise memory prioritizes reliability and compatibility across a wide range of systems. The CL22 timing ensures consistent performance without introducing instability, making it suitable for mission-critical operations where predictability is more important than marginal gains in speed.

Error Correction and Data Integrity Features

One of the defining characteristics of this category is the inclusion of Error-Correcting Code (ECC) functionality. ECC memory is designed to detect and correct single-bit errors in real time, significantly reducing the risk of data corruption. In environments where data accuracy is paramount, such as financial systems, scientific research, and healthcare databases, ECC memory provides an essential layer of protection.

The Supermicro MEM-DR416LD-ER32 utilizes advanced ECC algorithms to ensure that even transient errors caused by electrical interference or cosmic radiation are corrected before they can impact system operations. This capability is particularly valuable in large server farms where even minor errors can propagate and lead to significant issues if left unchecked.

Dual Rank Architecture and Its Benefits

The dual rank configuration of this memory module enhances performance by allowing the memory controller to interleave operations between two sets of memory chips. This effectively increases throughput by enabling parallel data access, which is especially beneficial in multi-threaded applications. Dual rank memory provides a balance between capacity and performance, making it a preferred choice for enterprise systems that require both high memory density and efficient data handling.

In comparison to single rank modules, dual rank configurations offer improved performance in scenarios where memory access patterns are complex and varied. This makes them ideal for virtualization environments where multiple virtual machines are running simultaneously, each with its own memory demands.

Voltage Efficiency and Thermal Considerations

Operating at 1.2 volts, this DDR4 memory module is designed with energy efficiency in mind. Lower voltage operation reduces power consumption, which is a critical factor in large-scale data centers where thousands of memory modules may be deployed. Reduced power consumption not only lowers operational costs but also minimizes heat generation, contributing to improved system stability and longevity.

Thermal management is a key consideration in server environments, and memory modules like the Supermicro MEM-DR416LD-ER32 are engineered to operate within strict thermal parameters. Efficient heat dissipation ensures that the modules maintain consistent performance even under continuous load, reducing the likelihood of thermal throttling or hardware failure.

288-Pin RDIMM Form Factor Compatibility

The 288-pin form factor is standard for DDR4 RDIMMs, ensuring compatibility with a wide range of server motherboards and platforms. This standardized design allows system administrators to easily integrate these modules into existing infrastructures without requiring significant modifications. Compatibility with industry-standard sockets ensures that the memory can be deployed across various server configurations, from single-socket systems to complex multi-node architectures.

Supermicro, as a leading manufacturer of server hardware, ensures that its memory modules are rigorously tested for compatibility with its own motherboards as well as other industry-standard platforms. This level of validation provides confidence to system builders and IT professionals that the memory will perform reliably in diverse environments.

Role in Cloud Computing Infrastructure

Cloud computing platforms rely heavily on robust memory solutions to deliver scalable and reliable services to users. The Supermicro MEM-DR416LD-ER32 fits seamlessly into cloud infrastructures, providing the performance and stability required to handle dynamic workloads. Its ability to support high memory densities makes it ideal for cloud providers that need to maximize resource utilization while maintaining service quality.

The use of ECC memory in cloud environments is particularly গুরুত্বপূর্ণ, as it ensures that data stored and processed in the cloud remains accurate and secure. This is essential for maintaining user trust and meeting regulatory requirements in industries such as finance and healthcare.

Scalability and Future-Proofing Considerations

One of the key advantages of this memory category is its scalability. As organizations grow and their computing needs evolve, the ability to expand memory capacity without replacing existing infrastructure is invaluable. RDIMM modules like the Supermicro MEM-DR416LD-ER32 allow for incremental upgrades, enabling systems to adapt to increasing demands without significant downtime or investment.

Future-proofing is another important aspect, as DDR4 technology continues to be widely supported across enterprise platforms. While newer memory standards are emerging, DDR4 remains a reliable and cost-effective solution for many organizations. Investing in high-quality DDR4 RDIMM modules ensures that systems remain relevant and capable of handling modern workloads for years to come.

Integration with Server Architectures

Modern server architectures are designed to take full advantage of high-performance memory modules. The integration of the Supermicro MEM-DR416LD-ER32 into these architectures enables optimized data flow between the CPU, memory, and storage subsystems. This synergy is critical for achieving peak performance in demanding applications.

Multi-channel memory configurations further enhance performance by allowing simultaneous data access across multiple memory channels. This reduces latency and increases throughput, ensuring that the system can handle concurrent tasks efficiently. The compatibility of this memory module with such configurations makes it a versatile choice for a wide range of server setups.

Reliability and Quality Assurance Standards

Enterprise memory modules undergo rigorous testing to ensure they meet stringent quality standards. The Supermicro MEM-DR416LD-ER32 is no exception, having been subjected to extensive validation प्रक्रियाओं to guarantee its reliability in mission-critical environments. These tests تشمل stress testing, compatibility verification, and দীর্ঘ-duration performance assessments to ensure consistent operation تحت مختلف الظروف.

Quality assurance is particularly important in server environments حيث أي failure يمكن أن يؤدي إلى significant downtime and data loss. By adhering to strict manufacturing and testing standards, this category of memory modules provides the dependability required for continuous operation in enterprise settings.