HPE 836220-S21 16GB PC4-19200 DDR4 ECC Registered Memory
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SKU/MPN | Warranty | Price | Condition | You save |
---|---|---|---|---|
836220-S21 | Six-Month (180 Days) | $75.00 | New (System) Pull | You save: $47.85 (39%) |
836220-S21 | Six-Month (180 Days) | $89.00 | Factory-Sealed New in Original Box (FSB) | You save: $31.15 (26%) |
Manufacturer Details
- Brand: Hewlett Packard Enterprise (HPE)
- Part Number: 836220-S21
- Product Name: 16GB DDR4 SDRAM Smart Memory Module
Technical Specifications
Capacity and Technology
- Storage Capacity: 16GB
- Memory Type: DDR4 SDRAM
- Configuration: Single Module (1 x 16GB)
Performance Details
- Bus Speed: 2400MHz DDR4-2400/PC4-19200
- Data Integrity: ECC (Error-Correcting Code)
- Signal Processing: Registered
- CAS Latency: CL17
- Features: 2Rx4
Physical Specifications
Form Factor and Dimensions
- Form Factor: 288-pin DIMM
- Shipping Dimensions: 1.00 inches (height) x 6.75 inches (depth)
- Weight: 0.20 lbs
Compatibility Information
This memory module is compatible with a range of HPE systems, including:
- Apollo 2000
- Apollo 4200
- Apollo 400
- Apollo 8000
- BL460c Gen9
- DL60 Gen9
- DL80 Gen9
- DL120 Gen9
- DL160 Gen9
- DL180 Gen9
- DL360 Gen9
- DL380 Gen9
- DL388 Gen9 (BTO)
- ML110 Gen9
- ML150 Gen9
- ML350 Gen9
- Synergy 480 Gen9
Capacity: 16GB
The HPE 836220-S21 Memory module offers an impressive capacity of 16GB, making it an excellent choice for users who require high-performance memory for their systems. With this substantial capacity, users can expect improved multitasking capabilities and enhanced overall system performance.
Improved Multitasking
One of the key benefits of the 16GB capacity is the ability to handle multiple tasks simultaneously without experiencing any lag or slowdown. Whether you are a professional working on resource-intensive applications or a gamer seeking a smooth and uninterrupted gaming experience, this memory module's capacity ensures that you can smoothly run multiple programs without any performance bottlenecks.
Enhanced System Performance
The 16GB capacity plays a crucial role in boosting overall system performance. It allows for faster data access and retrieval, resulting in quicker load times for applications and files. Whether you are launching large software applications, editing high-resolution multimedia files, or running virtual machines, the increased capacity ensures that your system can handle these tasks seamlessly.
Future-Proofing
Investing in a memory module with a higher capacity like 16GB ensures that your system is future-proofed. As software and applications continue to evolve and become more demanding, having ample memory becomes essential. By choosing a higher capacity module now, you can avoid the need for frequent upgrades in the near future.
Efficient Virtualization
If you use virtualization software to run multiple operating systems or create virtual environments, the 16GB capacity becomes even more critical. It allows for smoother operation and better performance when running virtual machines, ensuring that each virtual instance has enough memory to perform optimally.
Seamless Multimedia Editing
For professionals in the creative industry who work with resource-intensive multimedia applications such as video editing software or graphic design tools, the 16GB capacity is highly beneficial. It enables smooth and efficient editing, reducing rendering times and improving overall productivity.
Smooth Gaming Experience
Gamers can also reap the benefits of the 16GB capacity. Many modern games require substantial memory to run smoothly, especially when dealing with high-resolution textures and complex virtual environments. With 16GB of memory, gamers can enjoy a seamless gaming experience without worrying about performance issues or lag.
Expandability Options
The 16GB capacity also provides room for future expandability. If your needs change or you require more memory down the line, you have the option to add additional modules to further increase your system's memory capacity.
Speed: PC4-19200
The HPE 836220-S21 Memory module boasts a speed rating of PC4-19200, offering users a high-performance memory solution that can handle demanding tasks with ease. The speed of a memory module is a critical factor in determining how quickly data can be accessed, transferred, and processed by the system.
Improved Data Access
The PC4-19200 speed ensures that data can be accessed quickly, resulting in faster loading times for applications and files. Whether you are launching heavy software applications or dealing with large datasets, this high-speed memory module allows for swift data retrieval, enhancing your overall productivity.
Seamless Multitasking
The high-speed nature of the PC4-19200 memory module enables smooth multitasking capabilities. It ensures that your system can handle multiple tasks simultaneously without any noticeable slowdown or lag. Whether you are working on complex projects or running several applications concurrently, the high-speed memory allows for seamless multitasking.
Optimized System Performance
The PC4-19200 speed plays a crucial role in optimizing overall system performance. It allows for faster data transfer between the memory module and other system components, such as the processor and storage devices. This optimized performance translates into quicker response times, reduced latency, and improved overall system efficiency.
Enhanced Gaming Experience
Gamers can benefit greatly from the PC4-19200 speed. It ensures that games load quickly and run smoothly, minimizing any potential stuttering or lag. With this high-speed memory module, gamers can enjoy a more immersive and responsive gaming experience.
Efficient Data Processing
For professionals working with resource-intensive applications such as video editing software or 3D modeling tools, the PC4-19200 speed is of utmost importance. It allows for faster data processing, reducing rendering times and improving workflow efficiency. Tasks that involve handling large amounts of data become more streamlined and less time-consuming.
Improved Virtualization Performance
If you rely on virtualization software to run multiple operating systems or create virtual environments, the PC4-19200 speed is essential. It ensures that each virtual instance operates smoothly and efficiently, providing optimal performance for virtual machines.
Compatibility Considerations
When considering the PC4-19200 speed, it is important to ensure compatibility with your existing system components. Check your motherboard specifications and consult with the manufacturer or a technical expert to confirm that your system supports this high-speed memory module.
Memory Type: DDR4 SDRAM
The HPE 836220-S21 Memory module features DDR4 SDRAM, which represents the latest generation of memory technology. DDR4 SDRAM offers numerous benefits over its predecessors, making it an ideal choice for users seeking high-performance and efficient memory solutions.
Increased Bandwidth
DDR4 SDRAM provides increased bandwidth compared to previous memory types, allowing for faster data transfer rates. This increased bandwidth facilitates quicker access to data and enhances system performance. Whether you are engaging in memory-intensive tasks or running memory-hungry applications, the increased bandwidth ensures a smooth and responsive computing experience.
Lower Power Consumption
DDR4 SDRAM operates at lower voltage levels compared to previous memory technologies, resulting in reduced power consumption. This lower power requirement translates into improved energy efficiency and can contribute to overall energy savings. Additionally, lower power consumption leads to less heat generation, which can help maintain system stability and prolong the lifespan of other system components.
Higher Density
DDR4 SDRAM allows for higher memory density, meaning that more memory can be packed into a single module. This increased density enables higher-capacity modules, such as the 16GB module offered by the HPE 836220-S21 Memory. Higher density modules are particularly beneficial for users who require large amounts of memory for demanding applications or multitasking scenarios.
Enhanced Performance in Multithreaded Applications
DDR4 SDRAM's increased bandwidth and higher density make it particularly well-suited for multithreaded applications. Multithreaded applications are designed to take advantage of multiple processing threads simultaneously, and the higher bandwidth offered by DDR4 SDRAM ensures that these applications can access data quickly and efficiently.
Compatibility Considerations
When considering DDR4 SDRAM, it is important to ensure compatibility with your system. Check your motherboard specifications and consult with the manufacturer or a technical expert to confirm that your system supports DDR4 SDRAM modules. Additionally, DDR4 SDRAM is not backward compatible with older memory types, so make sure your system is equipped to handle this latest generation technology.
ECC Type: ECC Registered
The HPE 836220-S21 Memory module features ECC (Error-Correcting Code) Registered technology, which enhances reliability and data integrity. ECC Registered memory is designed to detect and correct errors that can occur during data storage and retrieval processes, ensuring that your system operates with utmost stability and accuracy.
Error Detection and Correction
ECC Registered memory utilizes sophisticated error detection and correction algorithms to identify and fix errors that may occur during data transmission or storage. This technology helps prevent data corruption and ensures that the information stored in memory remains accurate and consistent.
Enhanced System Stability
By detecting and correcting errors in real-time, ECC Registered memory significantly improves system stability. It minimizes the chances of crashes, freezes, or data corruption caused by memory errors. This enhanced stability is particularly crucial for users who rely on their systems for critical tasks or operate in environments where data integrity is paramount.
Data Integrity for Critical Applications
ECC Registered memory is especially beneficial for users working with critical applications that handle sensitive or valuable data. Whether you are involved in financial transactions, scientific research, or database management, the integrity of your data is of utmost importance. ECC Registered memory provides an additional layer of protection to ensure that your data remains accurate and unaffected by memory errors.
Server Environments
ECC Registered memory is commonly used in server environments due to its reliability and error correction capabilities. Servers typically handle large amounts of critical data and must operate continuously without any interruptions or errors. ECC Registered memory helps maintain the integrity of the data stored on servers and ensures uninterrupted operation.
Workstations and High-End Systems
For users operating high-performance workstations or systems that demand maximum reliability, ECC Registered memory is an excellent choice. It provides peace of mind, knowing that your data is protected against errors that could potentially compromise system stability or corrupt important files.
Compatibility Considerations
When considering ECC Registered memory, it is crucial to ensure compatibility with your system. Not all systems support this type of memory, so check your motherboard specifications and consult with the manufacturer or a technical expert to confirm compatibility. Additionally, ECC Registered memory is not compatible with non-ECC systems, so make sure your system is designed to work with this technology.
Pin Number: 288
The HPE 836220-S21 Memory module features a pin number of 288, which refers to the number of pins on the module's connector. The pin number is an important consideration when selecting memory modules, as it determines compatibility with your system's motherboard and memory slots.
Compatibility with Motherboards
The 288-pin design of the HPE 836220-S21 Memory module ensures compatibility with motherboards that support DDR4 SDRAM technology. The pin configuration allows for a secure and reliable connection between the module and the motherboard, ensuring proper data transfer and system operation.
Memory Slot Considerations
The pin number also determines compatibility with specific memory slots on your motherboard. Most DDR4 SDRAM modules with a pin number of 288 are designed for DIMM (Dual In-Line Memory Module) slots. It is important to check your motherboard specifications to verify that it supports this type of memory module and the corresponding pin number.
High Memory Capacity Support
The 288-pin design is commonly associated with higher memory capacities. This pin configuration allows for increased memory density, enabling the creation of modules with larger capacities, such as the 16GB module featured in the HPE 836220-S21 Memory. Users who require substantial memory capacity can benefit from modules with a higher pin number.
Upgrade Flexibility
The 288-pin design provides flexibility when it comes to upgrading your system's memory. If you have available memory slots and your motherboard supports additional modules, you can easily add more memory by inserting compatible modules with the same pin number. This flexibility allows you to expand your system's memory capacity as your needs grow or change.
Verify Compatibility
Before purchasing a memory module with a specific pin number, it is crucial to verify compatibility with your system's motherboard. Check your motherboard specifications and consult with the manufacturer or a technical expert to ensure that the pin number of the module matches the requirements of your system.
Cas Latency: 17
The HPE 836220-S21 Memory module features a Cas Latency (CL) of 17, which refers to the delay between a memory controller requesting data from the memory module and the module delivering that data. Cas Latency is an essential factor in determining memory performance and responsiveness.
Optimized Memory Performance
A lower Cas Latency value, such as 17, indicates faster data access and retrieval times. The reduced delay enhances memory performance and responsiveness, resulting in quicker application load times and smoother multitasking capabilities. Whether you are running demanding software applications or engaging in resource-intensive tasks, a lower Cas Latency ensures that your memory operates at peak performance.
Improved System Efficiency
A lower Cas Latency allows for more efficient data transfer between the memory module and other system components. With reduced latency, data can be accessed and processed more quickly, resulting in improved overall system efficiency. This efficiency is particularly beneficial for users who require fast and reliable memory for critical operations or time-sensitive tasks.
Compatibility Considerations
When considering Cas Latency, it is important to ensure compatibility with your system's motherboard and memory controller. Different systems and memory modules may have specific requirements or limitations when it comes to Cas Latency values. Consult your motherboard specifications and consult with the manufacturer or a technical expert to confirm compatibility and optimal performance.
Overclocking Considerations
If you are planning to overclock your system's memory to achieve higher performance levels, Cas Latency becomes even more critical. Lower Cas Latency values are generally preferred for overclocked systems, as they allow for faster data access and retrieval. However, overclocking requires careful consideration and may have additional requirements beyond Cas Latency, such as voltage settings and cooling solutions.
Application-Specific Considerations
Certain applications, such as gaming or multimedia editing software, may benefit from lower Cas Latency values. These applications often require rapid data access and processing, making a lower Cas Latency desirable. However, it is essential to balance Cas Latency with other factors such as capacity and speed to ensure optimal performance for your specific use case.
Choose the Right Balance
When selecting a memory module with a specific Cas Latency value, it is crucial to consider your system's requirements and your intended usage. A lower Cas Latency offers faster performance but may come at a higher cost. Finding the right balance between Cas Latency, capacity, speed, and other factors ensures that you choose the memory module that best suits your needs.