MEM-DR416LA-ER32 Supermicro 16GB DDR4 RDIMM RAM

Supermicro 16GB DDR4 ECC RAM

The Supermicro MEM-DR416LA-ER32 is a high-performance memory module designed for enterprise-grade servers and workstations. With advanced error correction and reliable architecture, this DDR4 SDRAM ensures stability and efficiency for demanding computing environments.

General Specifications

• Manufacturer: Supermicro
• Part Number: MEM-DR416LA-ER32
• Device Type: 16GB DDR4 SDRAM Memory Module

Technical Details

Capacity and Technology

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

Performance Attributes

• Bus Speed: 3200MHz DDR4-25600 / PC4-3200
• Data Integrity: ECC (Error-Correcting Code)
• Signal Processing: Registered
• CAS Latency: CL24
• Rank Configuration: Single Rank (1Rx4)

Physical Characteristics

Form Factor

• Design: 288-Pin RDIMM

Dimensions and Weight

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

MEM-DR416LA-ER32 16GB DDR4 RDIMM Memory Overview

The Supermicro 16GB MEM-DR416LA-ER32 3200MHz PC4-25600 CL24 ECC Registered Single Rank X4 1.2V DDR4 SDRAM 288-Pin RDIMM RAM represents a highly specialized class of server memory designed to meet the rigorous demands of modern data centers, enterprise workloads, and mission-critical computing environments. Built with precision engineering and adherence to strict industry standards, this memory module is optimized for performance, stability, and long-term reliability. Its integration into server infrastructures ensures consistent throughput, minimized downtime, and enhanced data integrity, making it an ideal solution for organizations that depend on uninterrupted operations.

Advanced DDR4 Architecture for Modern Workloads

DDR4 memory technology delivers significant improvements over previous generations, particularly in speed, efficiency, and scalability. Operating at a frequency of 3200MHz, this module provides high bandwidth capabilities essential for handling intensive applications such as virtualization, cloud computing, big data analytics, and high-performance computing workloads. The PC4-25600 classification ensures that data transfer rates remain consistent and optimized, reducing latency and enabling faster processing cycles across multiple server tasks.

This high-speed performance is especially beneficial in environments where multiple applications are running concurrently. Whether managing databases, executing complex simulations, or supporting enterprise resource planning systems, the increased throughput allows for smoother operations and improved responsiveness. The architecture of DDR4 also introduces enhancements in signal integrity and power management, ensuring efficient performance even under heavy loads.

Error-Correcting Code ECC for Data Integrity

One of the defining features of the Supermicro MEM-DR416LA-ER32 memory module is its support for ECC, or Error-Correcting Code. ECC memory plays a critical role in maintaining system stability by detecting and correcting single-bit memory errors automatically. In enterprise and server environments, even minor data corruption can lead to significant operational issues, including system crashes, data loss, or compromised applications.

ECC functionality ensures that memory errors are identified and corrected in real time, preventing disruptions and maintaining data accuracy. This feature is particularly important for industries such as finance, healthcare, and scientific research, where precision and reliability are paramount. By incorporating ECC technology, this memory module provides an additional layer of protection that standard non-ECC memory cannot offer.

Registered DIMM RDIMM for Scalability and Stability

The Registered DIMM configuration of this memory module enhances system stability by reducing the electrical load on the memory controller. RDIMM modules include a register that buffers the command and address signals before they reach the memory chips. This buffering mechanism allows servers to support larger memory capacities without compromising performance or reliability.

In large-scale server deployments, where multiple memory modules are installed across numerous slots, maintaining signal integrity is crucial. RDIMM technology ensures that signal timing remains consistent, enabling seamless communication between the memory and the processor. This capability is essential for data centers that require high-density memory configurations to support virtualization, containerization, and large datasets.

Single Rank X4 Configuration Explained

The single rank X4 configuration of this memory module refers to its internal organization and data access structure. A single rank module contains one set of memory chips that can be accessed simultaneously, which simplifies addressing and can improve compatibility with certain server platforms. The X4 designation indicates that each memory chip handles four bits of data, contributing to enhanced reliability when combined with ECC functionality.

This configuration is particularly advantageous in environments where data integrity and fault tolerance are critical. The X4 architecture works synergistically with ECC to provide advanced error detection and correction capabilities, ensuring that systems remain operational even in the presence of minor hardware faults. This makes the module suitable for applications requiring high availability and minimal downtime.

Compatibility with Enterprise Server Platforms

The 288-pin RDIMM form factor ensures compatibility with a wide range of enterprise-grade motherboards and server systems. Designed to meet industry standards, this memory module integrates seamlessly with systems that support DDR4 RDIMM configurations. It is particularly well-suited for use in Supermicro servers, where it can deliver optimized performance and reliability due to hardware-level compatibility.

Compatibility extends beyond physical dimensions to include firmware and BIOS-level support, ensuring that the module operates efficiently within supported systems. Organizations can deploy this memory with confidence, knowing that it has been rigorously tested and validated for enterprise environments. This reduces the risk of compatibility issues and simplifies the deployment process.

Enhanced Performance for Virtualization

Virtualization environments place significant demands on system memory, as multiple virtual machines share the same physical resources. The high capacity and speed of this 16GB module make it an excellent choice for virtualization workloads. It allows for the efficient allocation of memory resources across virtual machines, ensuring consistent performance and minimizing resource contention.

With increased memory bandwidth and low latency, virtualized environments can handle more workloads simultaneously without degradation in performance. This is particularly important for cloud service providers and enterprises that rely on virtualization to optimize hardware utilization and reduce costs.

Ideal for Data Centers and Cloud Infrastructure

Data centers require memory solutions that can handle continuous operation under demanding conditions. The Supermicro MEM-DR416LA-ER32 is engineered to meet these requirements, offering durability and reliability that support 24/7 operations. Its robust design ensures consistent performance even in high-density deployments, where multiple servers operate in close proximity.

In cloud infrastructure, where scalability and performance are critical, this memory module provides the necessary resources to support dynamic workloads. It enables rapid data processing and efficient resource allocation, ensuring that cloud services remain responsive and reliable. This makes it a valuable component in both private and public cloud environments.

Support for High-Performance Computing

High-performance computing applications, such as scientific simulations, machine learning, and data analysis, require substantial memory resources. The 3200MHz speed and ECC capabilities of this module make it well-suited for these demanding workloads. It provides the bandwidth and reliability needed to process large datasets efficiently and accurately.

In research and development environments, where computational accuracy is critical, the error-correcting capabilities of ECC memory ensure that results remain reliable. This is essential for applications where even minor errors can lead to incorrect conclusions or compromised outcomes.

Thermal Management and System Stability

Effective thermal management is crucial for maintaining system stability and preventing hardware failures. The low operating voltage and efficient design of this memory module contribute to reduced heat generation, which helps maintain optimal operating temperatures within server systems. This is particularly important in high-density environments where heat buildup can be a significant concern.

By minimizing thermal output, the module supports the overall stability of the system, reducing the likelihood of overheating-related issues. This ensures consistent performance and extends the lifespan of both the memory module and other system components.

Scalability for Future Expansion

As organizations grow, their computing needs evolve, requiring scalable solutions that can adapt to increasing demands. The Supermicro MEM-DR416LA-ER32 supports scalability by enabling higher memory capacities within server systems. Its RDIMM configuration allows for the installation of multiple modules without compromising performance, making it easier to expand system capabilities as needed.

This scalability is particularly important for businesses that anticipate growth or fluctuating workloads. By investing in high-quality memory modules, organizations can future-proof their infrastructure and avoid the need for frequent upgrades. This not only reduces costs but also simplifies long-term planning and resource management.