Description
Product overview for the HPE 797258-081
In the realm of server hardware, the 797258-081 8GB DDR4 memory module stands out as a crucial component, providing essential capabilities for optimal server performance. This detailed guide aims to explain the intricacies of this specific memory module, shedding light on its key features, specifications, and the role it plays in enhancing server functionality.
Key Features
The 797258-081 8GB DDR4 memory module comes equipped with several features that contribute to its efficiency and reliability in server environments.
Capacity: 8GB
The module boasts a capacity of 8 gigabytes, providing a substantial amount of memory to support server operations. This capacity is particularly advantageous for handling resource-intensive tasks and applications, ensuring smooth and efficient server performance.
Speed: 2133MHz
Operating at a speed of 2133 megahertz (MHz), this DDR4 memory module offers fast data transfer rates. The high speed is crucial for quick and responsive server operations, facilitating swift access to stored data and efficient multitasking.
CL15 Latency
With a CAS Latency (CL) of 15, the memory module minimizes the delay in processing data requests. A lower CL indicates faster response times, enhancing the overall speed and efficiency of the server’s memory subsystem.
ECC (Error-Correcting Code)
The module incorporates ECC technology, a critical feature for server memory. ECC helps detect and correct errors that may occur during data storage or retrieval, ensuring the integrity of stored information. This is especially important in server environments where data accuracy is paramount.
Dual Rank Unbuffered SDRAM
The memory module is designed with dual-rank unbuffered Synchronous Dynamic access memory (SDRAM). Dual-rank configuration allows for improved memory access, contributing to better overall server performance without the need for additional buffering.
288-Pin UDIMM Form Factor
Utilizing a 288-pin Unbuffered Dual In-Line Memory Module (UDIMM) form factor, this memory module is compatible with a wide range of server motherboards. The 288-pin design ensures a secure and stable connection, promoting reliable data transfer between the memory module and the server.
DDR4 Technology Overview
Before delving deeper into the specifics of the 797258-081 module, it’s essential to understand the DDR4 technology that underpins its functionality.
DDR4: The Fourth Generation of Double Data Rate Synchronous Dynamic Random-Access Memory
DDR4 represents a significant advancement over its predecessor, DDR3. It offers higher data transfer rates, increased module density, and improved power efficiency. These enhancements make DDR4 particularly well-suited for modern server applications, where speed, capacity, and reliability are paramount.
Advantages of DDR4 for Servers
- Higher Data Transfer Rates: DDR4 provides increased data transfer rates compared to previous generations, contributing to faster server performance.
- Increased Capacity: DDR4 modules can offer higher capacities, allowing servers to handle larger datasets and more complex workloads.
- Improved Power Efficiency: DDR4 operates at lower voltages, reducing power consumption and heat generation. This is crucial for maintaining optimal server temperatures and energy efficiency.
Role of Memory Modules in Servers
Memory modules play a critical role in the overall functionality of servers, acting as temporary storage for data that the server’s CPU can quickly access. Understanding the significance of memory in server environments helps highlight the importance of choosing the right modules, such as the 797258-081 8GB DDR4.
Key Functions of Server Memory Modules
- Data Storage: Memory modules store data temporarily for quick access by the server’s CPU. This enables faster data retrieval compared to accessing data from storage devices such as hard drives or SSDs.
- Multitasking Support: Servers often handle multiple tasks simultaneously. Sufficient and fast memory allows servers to switch between tasks seamlessly, improving overall performance.
- Application Performance: Memory plays a crucial role in the performance of applications running on servers. Adequate memory ensures that applications can access the resources they need promptly.
- Virtualization: In virtualized environments, where multiple virtual machines run on a single physical server, ample memory is essential. It allows each virtual machine to have dedicated memory, preventing performance bottlenecks.
Detailed Analysis 797258-081 8GB DDR4 Memory Module
Now, let’s take a closer look at the 797258-081 8GB DDR4 memory module and break down its specifications to understand how it contributes to an efficient server environment.
Capacity: 8GB
The 8GB capacity of the module is suitable for a variety of server applications. It allows for the smooth execution of tasks and supports the storage of a considerable amount of data in the server’s memory.
Speed: 2133MHz
Operating at a speed of 2133MHz, this DDR4 module ensures fast data transfer rates. The high speed is particularly advantageous for applications that require quick access to large datasets, contributing to overall server responsiveness.
CL15 Latency
The CL15 latency indicates a relatively low CAS latency, which is beneficial for reducing delays in data processing. Lower latency results in quicker response times, enhancing the overall efficiency of the server’s memory subsystem.
ECC (Error-Correcting Code)
ECC technology is a critical feature for servers where data accuracy is paramount. The 797258-081 module’s incorporation of ECC helps detect and correct errors, preventing data corruption and ensuring the reliability of stored information.
Dual Rank Unbuffered SDRAM
The use of dual-rank unbuffered SDRAM is a notable feature that enhances memory access. Dual-rank configurations can improve the overall performance of the server’s memory subsystem without the added complexity of buffering.
288-Pin UDIMM Form Factor
The 288-pin UDIMM form factor ensures compatibility with a wide range of server motherboards. The secure and stable connection facilitated by the 288-pin design is crucial for reliable data transfer between the memory module and the server.
Motherboard Compatibility
Verify that the server motherboard supports DDR4 memory modules and is compatible with the 288-pin UDIMM form factor. Consult the server’s documentation or motherboard manual for detailed information on supported memory configurations.
BIOS/UEFI
After installing the memory module, access the server’s BIOS or UEFI firmware to verify that the system recognizes the new memory configuration. Adjust memory settings if necessary to optimize performance.
General Information about the HPE 797258-081
- Manufacturer: HPE
- Model
Number or SKU# 797258-081 - Product Type: Memory (RAM)
- RAM Type: Pc4-17000
- Product Name: 8GB DDR4 SDRAM Memory Module
Technical Information for the 8GB DDR4 RAM
- Storage Capacity: 8GB
- Memory Technology: DDR4 SDRAM
- Number Of Modules: 1 X 8GB
- Memory Speed: 2133mhz DDR4-2133/PC4-17000
- Data Integrity Check: ECC
- Features: Dual Rank, Unbuffered
- Cas Latency Timings: Cl15
- Form Factor: 288-Pin Dimm
Outline, the 797258-081 8GB DDR4 memory module emerges as a reliable and efficient component for server environments. Its combination of capacity, speed, low latency, ECC technology, dual-rank configuration, and compatibility with the 288-pin UDIMM form factor positions it as a valuable asset for servers requiring optimal performance.
Server administrators and IT professionals seeking to enhance their server infrastructure can benefit from a detailed understanding of the 797258-081 module’s features and specifications. By selecting memory modules that align with the specific requirements of their servers, they can contribute to improved overall performance, responsiveness, and reliability in their computing environments.
As technology continues to advance, memory modules like the 797258-081 8GB DDR4 play a crucial role in shaping the landscape of server hardware, providing the necessary foundation for the ever-growing demands of modern server applications and workloads.