HPE P03050-091 16GB DDR4 SDRAM Pc4-23400 Cl21 Ecc Reg 288 Pin
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P03050-091 | Six-Month (180 Days) | $48.00 | New (System) Pull | You save: $20.85 (30%) |
P03050-091 | Six-Month (180 Days) | $182.00 | Factory-Sealed New in Original Box (FSB) | You save: $65.15 (26%) |
HPE P03050-091 16GB DDR4 Memory Module
Product Overview
- Manufacturer: Hewlett Packard Enterprise (HPE)
- Part Number / SKU: P03050-091
- Product Type: Memory (RAM)
- Model Name: 16GB DDR4 SDRAM Smart Memory Kit
Technical Specifications
Memory Details
- Total Capacity: 16GB
- Memory Type: DDR4 SDRAM DIMM
- Pin Count: 288-Pin
- Memory Speed: 2933MHz (PC4-23400)
- Number of Modules: 1 x 16GB
Performance Features
- Rank: Dual Rank
- Registered: Yes
- Error Checking: ECC (Error-Correcting Code)
- Latency Timings: CL21 (21-21-21)
- Voltage: 1.2V
Compatibility
Supported Systems
- HPE ProLiant DL Series: DL380 Gen10, DL380 Gen10 Base, DL380 Gen10 Entry, DL380 Gen10 High Performance, DL380 Gen10 Performance, DL380 Gen10 SMB, DL380 Gen10 Solution
- HPE ProLiant BL Series: BL460c Gen10
- HPE ProLiant DL580 Series: DL580 Gen10, DL580 Gen10 Base, DL580 Gen10 Entry, DL580 Gen10 Performance
- HPE ProLiant DL560 Series: DL560 Gen10, DL560 Gen10 Base, DL560 Gen10 Entry, DL560 Gen10 Performance
- HPE ML Series: ML350 Gen10, ML350 Gen10 Base, ML350 Gen10 Entry, ML350 Gen10 Performance, ML350 Gen10 Solution
- HPE Synergy: Synergy 660 Compute Modules
- HPE ProLiant Apollo Series: Apollo 2000 XL170r, XL190r, Apollo 4200, Apollo 4500 XL450, Apollo 6500 Servers
Capacity
High Capacity for Enhanced Performance
The HPE P03050-091 Memory module is equipped with an impressive capacity of 16GB. This high capacity allows for enhanced performance and multitasking capabilities, making it an ideal choice for demanding applications and workloads.
Seamless Multitasking
With 16GB of capacity, users can seamlessly multitask between various applications without experiencing any lag or slowdown. This is particularly beneficial for professionals who rely on resource-intensive software or need to run multiple virtual machines simultaneously.
Improved System Responsiveness
The large capacity of 16GB ensures that your system has ample memory to store and retrieve data quickly. This results in improved system responsiveness, allowing you to complete tasks faster and more efficiently.
Future-Proofing
Investing in a memory module with a high capacity like the HPE P03050-091 ensures that your system is future-proofed. As software and applications continue to evolve and become more resource-intensive, having a higher capacity memory module will allow your system to handle these advancements without the need for frequent upgrades.
Enhanced Gaming Experience
Gamers can also benefit from the 16GB capacity of the HPE P03050-091 Memory. Many modern games require a significant amount of memory to run smoothly, especially when combined with other resource-intensive tasks like streaming or recording gameplay. With 16GB of capacity, gamers can enjoy a seamless gaming experience without worrying about performance issues or frame rate drops.
Efficient Video Editing and Rendering
Video editing and rendering processes often demand a substantial amount of memory to handle large file sizes and complex editing tasks. The 16GB capacity of the HPE P03050-091 Memory ensures that video editors and content creators can work with high-resolution footage and perform resource-intensive operations without any hiccups or slowdowns.
Smooth Virtualization
Virtualization is a crucial aspect of many businesses and organizations, allowing for efficient resource allocation and management. With 16GB of capacity, the HPE P03050-091 Memory can support multiple virtual machines simultaneously, ensuring smooth operation and optimal performance.
Server Applications
For server applications, the 16GB capacity is particularly important. Servers often handle multiple client requests and process large amounts of data simultaneously. With a higher capacity memory module, servers can handle these tasks efficiently, resulting in improved response times and overall performance.
Workstations and Power Users
Workstations and power users who rely on resource-intensive software such as CAD/CAM applications, 3D modeling, or simulations can greatly benefit from the 16GB capacity. These types of applications require a significant amount of memory to operate smoothly, and having ample capacity ensures that users can work without any performance bottlenecks.
Technology
Next-Generation SDRAM DDR4
The HPE P03050-091 Memory module utilizes the latest technology in dynamic random-access memory (DRAM) – SDRAM DDR4. This advanced technology offers numerous benefits that contribute to improved performance and efficiency.
Faster Data Transfer Rates
SDRAM DDR4 technology provides faster data transfer rates compared to its predecessor, DDR3. This means that information can be read from and written to the memory module at higher speeds, resulting in quicker overall system performance.
Increased Bandwidth
With SDRAM DDR4, the memory module can achieve higher bandwidth, allowing for improved data transmission between the memory and the processor. This increased bandwidth is particularly beneficial for applications that require fast access to large datasets, such as scientific simulations or data analysis.
Lower Power Consumption
One of the key advantages of SDRAM DDR4 is its lower power consumption compared to previous generations. This technology operates at lower voltage levels, resulting in reduced energy usage and improved energy efficiency. This is not only beneficial for reducing electricity costs but also contributes to a greener and more environmentally friendly computing environment.
Extended Battery Life for Laptops and Mobile Devices
For users who rely on laptops or mobile devices, the lower power consumption of SDRAM DDR4 can significantly extend battery life. By utilizing this technology in memory modules like the HPE P03050-091, users can enjoy longer periods of uninterrupted usage without needing to recharge their devices.
Cooler Operation
The lower power consumption of SDRAM DDR4 also leads to cooler operation. As less heat is generated during memory operations, the overall temperature of the system is reduced. This is particularly important for high-performance systems or servers that operate under heavy workloads, as cooler operation can contribute to increased system stability and lifespan.
Improved System Stability
SDRAM DDR4 technology offers improved system stability by reducing the likelihood of errors or crashes caused by overheating. With cooler operation, users can trust that their systems will remain stable even under demanding conditions, minimizing the risk of data loss or downtime.
Efficient Data Centers
Data centers that house numerous servers and handle massive amounts of data can benefit greatly from SDRAM DDR4 technology. The lower power consumption and cooler operation contribute to overall energy savings and improved cooling efficiency, allowing data centers to operate more efficiently while reducing operational costs.
Speed
High-Speed PC4-23400
The HPE P03050-091 Memory module boasts a high-speed rating of PC4-23400, also known as DDR4-2933. This impressive speed rating ensures that data transfer and processing occur at lightning-fast speeds, resulting in improved system performance and responsiveness.
Reduced Latency
The high-speed nature of PC4-23400 translates into reduced latency, which is the delay between when a command is issued to the memory module and when the requested data is available. Lower latency leads to faster access to data, resulting in snappier system performance and improved user experience.
Smooth Application Execution
With the PC4-23400 speed rating, applications and software can execute seamlessly without experiencing any noticeable delays or lags. This is particularly important for resource-intensive applications such as video editing software, gaming, or virtualization, where even slight delays can hinder productivity or user experience.
Faster Gaming Performance
Gamers can take full advantage of the PC4-23400 speed rating offered by the HPE P03050-091 Memory module. With faster data transfer rates and reduced latency, gamers can enjoy smoother gameplay, quicker load times, and more responsive controls. This can make a significant difference in competitive gaming scenarios where split-second reactions are crucial.
Improved Data Analysis
Data analysis tasks often involve processing large datasets and complex calculations. The high-speed nature of PC4-23400 allows for faster data retrieval and processing, enabling analysts to work more efficiently and gain insights from their data in a shorter amount of time.
Efficient Virtual Machine Performance
Virtual machines rely heavily on memory performance to ensure smooth operation. With the PC4-23400 speed rating, the HPE P03050-091 Memory module provides the necessary speed for virtual machines to run at optimal levels, allowing for efficient resource allocation and management.
Server Performance
Servers handling numerous client requests and processing large amounts of data can greatly benefit from the PC4-23400 speed rating. The high-speed nature of this memory module ensures that servers can handle these tasks efficiently, resulting in improved response times and overall performance.
Workstation Power
Workstations used for demanding tasks such as 3D modeling, CAD/CAM applications, or video editing can greatly benefit from the PC4-23400 speed rating. The high-speed performance allows for faster rendering times, smoother real-time previews, and overall improved workflow efficiency.
Error Correction
Enhanced Reliability with ECC
The HPE P03050-091 Memory module features Error Correcting Code (ECC), which enhances the reliability and integrity of data stored in memory. ECC is an important feature for users who prioritize data integrity and cannot afford any errors or corruption.
Error Detection and Correction
ECC works by adding extra bits to each memory word, allowing for the detection and correction of single-bit errors. This means that if a single bit within a memory word is flipped due to electrical or other disturbances, ECC can identify and correct the error, ensuring that the correct data is retrieved and processed.
Data Integrity Assurance
By utilizing ECC, the HPE P03050-091 Memory module provides assurance that stored data remains intact and accurate. This is particularly important for critical applications such as financial systems, databases, or scientific simulations where data integrity is paramount.
Financial Transactions
For financial institutions and organizations that handle sensitive customer data or process financial transactions, ECC is essential. The ability to detect and correct errors ensures that financial transactions are processed accurately and reliably, minimizing the risk of financial losses or discrepancies.
Scientific Simulations and Research
In scientific simulations and research, accuracy is crucial. The presence of ECC in the HPE P03050-091 Memory module ensures that data generated from simulations or experiments remains reliable and free from errors, allowing researchers to draw valid conclusions and make informed decisions based on accurate data.
Database Management
Databases store vast amounts of critical information. The integrity of this data is of utmost importance. ECC ensures that any potential errors in the memory module do not lead to corrupt or inaccurate data within the database, providing peace of mind for organizations relying on accurate and consistent data storage.
Server Environments
Servers used in enterprise environments can greatly benefit from ECC memory. The constant processing of large amounts of data and the need for reliable operation make ECC an essential feature for servers. By utilizing ECC in the HPE P03050-091 Memory module, server administrators can ensure that their systems remain stable and error-free.
Data-Critical Applications
Applications that handle critical data, such as medical records or legal documents, require a high level of data integrity. By using ECC memory, users can have confidence that the stored data remains accurate and reliable, protecting against potential errors or corruption.
Registered
Enhanced System Stability
The HPE P03050-091 Memory module is registered, which offers enhanced system stability and reliability. Registered memory, also known as buffered memory, includes a register between the memory module and the system's memory controller.
Reduced Electrical Load
The register in registered memory helps reduce the electrical load on the memory controller by acting as an intermediary. This allows for better signal integrity and improved performance, particularly in systems with multiple memory modules or high capacities.
Increased System Scalability
Registered memory is particularly beneficial for systems that require a large number of memory modules or have high-capacity requirements. By using registered memory like the HPE P03050-091, system scalability is improved as the electrical load is distributed more efficiently across multiple modules.
Servers and Data Centers
Servers and data centers that handle numerous memory modules can greatly benefit from registered memory. The enhanced system stability and reduced electrical load allow for smoother operation and improved overall performance. Additionally, the increased system scalability ensures that servers can accommodate future expansion or increased memory requirements.
Workstations with High-Capacity Requirements
Workstations used for resource-intensive tasks often require high-capacity memory modules. By utilizing registered memory, workstations can handle these high-capacity requirements more efficiently, ensuring stable and reliable performance even under heavy workloads.
Pin Count
High Pin Count for Enhanced Data Transfer
The HPE P03050-091 Memory module features a high pin count of 288. The pin count refers to the number of electrical contacts on the module, and a higher pin count allows for enhanced data transfer rates and improved overall system performance.
Increased Bandwidth
The high pin count of 288 enables a greater number of electrical connections between the memory module and the system's memory controller. This increased bandwidth allows for faster data transmission, resulting in improved system responsiveness and reduced latency.
Efficient Data Transfer
With a high pin count, the HPE P03050-091 Memory module can efficiently transfer large amounts of data between the memory and the processor. This is particularly important for applications that require fast access to large datasets, such as video editing or database management.
Improved Gaming Performance
Gamers can benefit from the high pin count of 288 offered by the HPE P03050-091 Memory module. The increased bandwidth and efficient data transfer allow for faster loading times, smoother gameplay, and reduced input latency, resulting in an improved gaming experience.
Accelerated Content Creation
Content creators working with high-resolution images or videos can take advantage of the high pin count. The increased bandwidth enables faster data transfers, allowing for quicker rendering times and smoother real-time previews, ultimately enhancing productivity and workflow efficiency.
Server Environments
In server environments where data processing is critical, a high pin count is essential. The HPE P03050-091 Memory module's 288-pin count ensures efficient data transfer and optimal performance, allowing servers to handle demanding workloads effectively and reliably.
CAS Latency
Efficient Data Access with CAS Latency 21
The HPE P03050-091 Memory module has a CAS (Column Address Strobe) latency of 21. CAS latency measures the delay between the memory controller requesting data and the data being available for access. A lower CAS latency results in more efficient data access and improved system performance.
Faster Data Retrieval
With a CAS latency of 21, the HPE P03050-091 Memory module can retrieve requested data more quickly, reducing the time it takes for the processor to access and process information. This results in improved overall system responsiveness and snappier performance.
Optimized Application Execution
The efficient data access provided by a low CAS latency is particularly beneficial for applications that rely on frequent memory access, such as gaming or real-time simulations. With CAS latency 21, these applications can execute more smoothly, allowing for an enhanced user experience.
Faster Gaming Response Times
Gamers can benefit from the low CAS latency of 21 offered by the HPE P03050-091 Memory module. The faster data retrieval allows for reduced input latency, resulting in quicker response times and more accurate controls. This can make a significant difference, especially in fast-paced competitive gaming scenarios.
Real-Time Simulations and Modeling
Real-time simulations and modeling software rely on rapid data access to provide accurate and up-to-date results. The low CAS latency ensures that these applications can access memory quickly, allowing for real-time analysis and interaction with the simulation or model.
High-Performance Computing
In high-performance computing environments, where quick data access is vital, a low CAS latency is essential. The HPE P03050-091 Memory module's CAS latency of 21 ensures that these systems can efficiently retrieve data from memory, enabling faster calculations and improved overall performance.