Supermicro 16GB MEM-DR416LA-ER32 DDR4 RDIMM RAM

Capacity: 16GB

The Supermicro MEM-DR416LA-ER32 RAM module is designed to provide users with a high-capacity memory solution for their computing needs. With a capacity of 16GB, this RAM module offers ample space to store and access data, ensuring smooth and efficient performance for various applications.

Increased Performance

One of the key benefits of the 16GB capacity is its ability to enhance overall system performance. With more memory available, users can run multiple programs simultaneously without experiencing slowdowns or lag. This is particularly useful for tasks that require extensive multitasking or resource-intensive applications such as video editing, gaming, or running virtual machines.

The increased capacity allows users to store a larger amount of data in the RAM, reducing the need for frequent data transfers between the RAM and the slower storage devices like hard drives or solid-state drives (SSDs). This results in faster access times and improved overall system responsiveness.

Smooth Multitasking

The 16GB capacity also enables smooth multitasking capabilities. Users can open multiple tabs in their web browsers, work with complex spreadsheets, edit large images, and perform other memory-intensive tasks without experiencing significant slowdowns. The ample memory ensures that each application has enough space to operate efficiently, minimizing the risk of crashes or freezes.

Future-Proofing

As software applications and operating systems continue to evolve and become more resource-demanding, having a higher capacity RAM becomes increasingly important. Investing in a 16GB RAM module ensures that your system will be able to handle future updates and software advancements without the need for immediate upgrades.

Speed: 3200MHz

Supermicro MEM-DR416LA-ER32 RAM module features a speed of 3200MHz, which refers to the data transfer rate of the memory module. The higher the speed, the faster the data can be read from and written to the RAM, resulting in improved system performance and responsiveness.

Faster Data Processing

With a speed of 3200MHz, this RAM module can process data at a rapid rate, allowing for quicker execution of tasks. Whether you are running demanding applications, playing graphics-intensive games, or working with large datasets, the increased speed ensures that data is retrieved and processed efficiently, reducing waiting times and improving overall user experience.

Enhanced Gaming Performance

For gamers, the 3200MHz speed offers a significant advantage. The faster data transfer rate allows for quicker loading times in games, reducing stuttering and lag. It also provides a smoother gaming experience by ensuring that graphics and textures are loaded swiftly, resulting in better frame rates and more immersive gameplay.

Improved Productivity

The increased speed of 3200MHz also benefits productivity-focused tasks. Whether you are working with large files or running complex simulations, the faster data processing enables quicker calculations and reduces the time required to complete tasks. This translates into improved productivity and efficiency for professionals in various fields such as graphic design, video editing, engineering, and scientific research.

FormFactor: 288-Pin RDIMM

The Supermicro MEM-DR416LA-ER32 RAM module features a 288-pin RDIMM form factor. This form factor is widely used in servers and high-performance computing systems due to its numerous benefits and compatibility with various hardware configurations.

Compatibility

The 288-pin RDIMM form factor ensures compatibility with a wide range of server motherboards and systems that support DDR4 memory. This makes it easier for users to find compatible hardware and ensures a hassle-free installation process.

Scalability

The form factor also allows for easy scalability of memory capacity. Servers and high-performance systems often require large amounts of memory to handle multiple users, virtual machines, and resource-intensive applications. The 288-pin RDIMM form factor allows users to add additional RAM modules to their systems, increasing the overall capacity without the need for extensive hardware modifications.

Reliability

RDIMM (Registered DIMM) modules provide an extra level of reliability compared to other memory types. The registered design helps to reduce electrical loading on the memory controller and improve signal integrity, leading to improved system stability and reduced risk of errors or crashes.

Technology: DDR4

The Supermicro MEM-DR416LA-ER32 RAM module utilizes DDR4 technology, which represents the latest generation of RAM technology. DDR4 offers several advantages over its predecessors, making it an essential feature for users looking to maximize their system's performance.

Increased Bandwidth

DDR4 technology provides increased bandwidth compared to DDR3, allowing for faster data transfer rates. This results in improved overall system performance, faster application loading times, and reduced latency. Users can experience smoother multitasking capabilities and enhanced responsiveness when using applications that require significant memory bandwidth.

Energy Efficiency

DDR4 memory modules are designed to operate at lower voltages compared to previous generations. This results in reduced power consumption and improved energy efficiency, making it an ideal choice for users concerned about their system's power usage or those looking to reduce their environmental impact.

Future Compatibility

DDR4 technology is widely adopted in modern systems and is expected to remain the standard for the foreseeable future. Investing in DDR4 RAM ensures compatibility with the latest hardware and software advancements, offering users a future-proof solution that can handle the demands of upcoming applications and operating systems.

Ecc: 1

The Supermicro MEM-DR416LA-ER32 RAM module features Error Correction Code (ECC) functionality with a value of 1. ECC is a feature that helps to detect and correct errors in data stored in memory, providing increased reliability and data integrity.

Data Integrity

ECC functionality plays a crucial role in ensuring data integrity, particularly in critical applications such as servers or workstations that deal with sensitive information. By detecting and correcting errors, ECC helps to prevent data corruption that could lead to system crashes, program failures, or data loss.

Improved Stability

The presence of ECC support enhances overall system stability. By automatically correcting errors, ECC reduces the likelihood of crashes or freezes caused by memory-related issues. This is especially important for systems that need to operate continuously without interruptions, such as servers or mission-critical workstations.

Reliability for High-Performance Computing

ECC is particularly essential for high-performance computing applications that involve complex calculations or simulations. Calculation errors due to memory errors can have significant consequences in scientific research, engineering, or financial modeling. The ECC feature helps maintain the accuracy and reliability of these computations, ensuring accurate results.

Registered: 1

The Supermicro MEM-DR416LA-ER32 RAM module is registered (RDIMM). Registered memory modules are widely used in server environments due to their increased reliability and compatibility with larger memory configurations.

Enhanced Memory Controller Performance

RDIMM modules feature a register that acts as a buffer between the memory controller and the memory chips. This buffer helps to reduce electrical loading on the memory controller, improving signal integrity and overall system performance. With registered memory, the memory controller can support larger memory configurations without sacrificing stability or speed.

Scalability

Registered memory allows for greater scalability in terms of memory capacity. Servers often require large amounts of memory to handle multiple users, virtualization, or database-intensive applications. The registered design enables users to expand their system's memory capacity by adding additional RDIMM modules, making it easier to meet growing demands without significant hardware modifications.

Reliability

The registered design also enhances the reliability of the memory system. By reducing electrical loading on the memory controller, RDIMM modules help to minimize signal interference and improve overall system stability. This is particularly important in server environments where uptime and data integrity are critical.

Rank: Single Rank

The Supermicro MEM-DR416LA-ER32 RAM module features a single rank configuration. Rank refers to the organization of memory chips on a module and affects the module's performance and compatibility with other modules.

Performance

A single rank configuration allows for faster data access compared to dual-rank or quad-rank configurations. With a single rank, the memory controller can access data more quickly since there are fewer chips to navigate. This results in improved overall system performance and reduced latency.

Compatibility

A single rank configuration is generally more compatible with a wider range of systems and motherboard configurations. Some older systems or motherboards may have limitations when it comes to supporting higher-density or multiple-rank memory modules. By opting for a single rank module, users can ensure compatibility and avoid potential issues.

Voltage: 1.2V

The Supermicro MEM-DR416LA-ER32 RAM module operates at a voltage of 1.2V. The lower voltage requirement provides several benefits to users, including improved energy efficiency and reduced heat generation.

Energy Efficiency

Operating at a lower voltage of 1.2V compared to previous generations, this RAM module consumes less power. This not only helps to reduce energy costs but also contributes to a more sustainable computing environment. The lower power consumption is particularly beneficial for systems that require high memory capacity, such as servers or workstations.

Heat Reduction

The lower voltage requirement also leads to reduced heat generation. Heat is a common concern in high-performance systems where excessive temperatures can impact overall performance and reliability. The 1.2V operating voltage helps in maintaining optimal operating temperatures by minimizing heat output, ensuring stable performance even under heavy workloads.

Cl: 24

The Supermicro MEM-DR416LA-ER32 RAM module has a CAS latency (CL) value of 24. CAS latency refers to the amount of time it takes for the memory module to respond to a command and provide requested data. A lower CAS latency indicates faster response times and improved overall memory performance.

Faster Data Access

A CL value of 24 indicates that the RAM module can quickly respond to commands and provide data with minimal delay. This results in faster data access, which is particularly important for applications that require real-time processing or quick retrieval of information. Users can experience improved system performance, reduced waiting times, and increased responsiveness when using memory-intensive applications.

Compatibility Considerations

While a lower CAS latency offers faster data access, it is essential to consider compatibility with other memory modules or the motherboard. Lower CAS latency values may not be supported by all systems or may require specific configurations to achieve optimal performance. Users should ensure that their system supports the specified CAS latency before making a purchase.

Quantity: 1

The Supermicro MEM-DR416LA-ER32 RAM module is available in a quantity of 1, indicating that it is a single module. The quantity of RAM modules you need depends on your system's requirements and the number of memory slots available on your motherboard.

Flexibility

Having the option to purchase a single module allows for greater flexibility in terms of system configuration. Users can add or replace modules as needed, depending on their evolving needs or budget constraints. This flexibility is particularly useful when upgrading an existing system or customizing a new build.

Expandability

If your motherboard has multiple memory slots, you can easily expand your system's memory capacity by adding additional RAM modules. By starting with a single module, you have the option to gradually increase the quantity as needed, providing room for future upgrades without the need for immediate investment in multiple modules.

In conclusion, the Supermicro MEM-DR416LA-ER32 RAM module offers impressive features and specifications that cater to users' needs for high-capacity, high-speed, reliable, and energy-efficient memory solutions. With its 16GB capacity, users can experience increased performance, smooth multitasking, and future-proof their systems. The 3200MHz speed ensures faster data processing, benefiting gaming performance and productivity tasks. The 288-pin RDIMM form factor provides compatibility, scalability, and reliability for server environments. The DDR4 technology enhances bandwidth, energy efficiency, and future compatibility. The ECC feature ensures data integrity, stability, and reliability for critical applications. The registered design offers enhanced memory controller performance, scalability, and reliability. The single rank configuration provides improved performance and compatibility. The 1.2V operating voltage improves energy efficiency and reduces heat generation. The CL value of 24 ensures faster data access, considering compatibility considerations. Finally, the option to purchase a quantity of 1 module offers flexibility and expandability for system configuration.