HPE Xeon Processor P24480-B21 20Core 2.1GHZ 27.5MB Cache FCLGA3647
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Same product also available in:
SKU/MPN | Warranty | Price | Condition | You save |
---|---|---|---|---|
P24480-B21 | Six-Month (180 Days) | $2,245.00 | Factory-Sealed New in Original Box (FSB) | You save: $1,807.43 (45%) |
P24480-B21 | Six-Month (180 Days) | $888.00 | New (System) Pull | You save: $255.45 (22%) |
Product Overview
Server Processor Details
- Type: Server Processor
- Manufacturer: HPE (Hewlett Packard Enterprise)
- Part Number: P24480-B21
- Model: Gold 5218r
Technical Specifications
Processor Features
- Core Count: 20 cores
- Base Clock Speed: 2.10 GHz
- Maximum Turbo Frequency: 4.00 GHz
- Ultra Path Interconnect (UPI) Speed: 10.4 GT/s
- UPI Links: 2
- Instruction Set: 64-bit
- Instruction Set Extensions:
- Intel® SSE4.2
- Intel® AVX
- Intel® AVX2
- Intel® AVX-512
Cache Memory
- Smart Cache Size: 27.5 MB
Manufacturing Technology
- Process Technology: 14 nm
- Maximum Thermal Design Power (TDP): 125 W
- Compatible Socket: FCLGA3647
Memory Specifications
Memory Capacity and Support
- Maximum Memory Size: 1 TB (dependent on memory type)
- Supported Memory Types: DDR4-2667
- Maximum Memory Speed: 2.67 GHz
- Maximum Number of Memory Channels: 6
- ECC Memory Support: Yes
Cores
The HPE P24480-B21 Xeon Processor is equipped with an impressive 20 cores, making it an incredibly powerful solution for users who require high-performance computing. The number of cores in a processor plays a crucial role in determining its overall processing power and multitasking capabilities. With 20 cores at their disposal, users can experience exceptional performance across a wide range of applications and workloads.
Improved Multitasking
One of the key benefits of having 20 cores is the ability to handle multiple tasks simultaneously. Each core can independently execute instructions, allowing for efficient multitasking without compromising performance. Whether you are running complex simulations, rendering graphics, or performing data analysis, the HPE P24480-B21 Xeon Processor's 20 cores ensure that you can tackle demanding workloads without experiencing any lag or slowdowns.
Enhanced Parallel Processing
Parallel processing refers to the execution of multiple tasks simultaneously, which can significantly improve overall system performance. With 20 cores, the HPE P24480-B21 Xeon Processor excels in parallel computing scenarios. This is particularly advantageous for users who engage in tasks such as video editing, scientific simulations, or virtualization, where multiple threads can be executed concurrently to expedite processing times.
Optimized Performance for Resource-Intensive Applications
Resource-intensive applications such as database management systems, virtual machines, and server applications require substantial processing power to deliver optimal performance. The 20 cores in the HPE P24480-B21 Xeon Processor ensure that these applications can run smoothly and efficiently. Users can leverage the processor's high core count to handle demanding workloads and ensure optimal performance even under heavy usage.
Scalability and Future-Proofing
The presence of 20 cores in the HPE P24480-B21 Xeon Processor offers scalability and future-proofing for users. As technology advances and software becomes more optimized for multi-core processors, having a higher core count ensures that your system remains relevant and capable of handling future workloads. Investing in a processor with 20 cores provides a level of future-proofing, allowing users to adapt to evolving technological demands without requiring a complete hardware upgrade.
Base Clock Speed
The HPE P24480-B21 Xeon Processor features a base clock speed of 2.1GHz, which determines the frequency at which the processor operates under normal conditions. The base clock speed is an essential specification to consider as it directly impacts the overall performance and responsiveness of the system.
Efficient Task Execution
A higher base clock speed allows the processor to execute tasks more quickly, resulting in improved overall system responsiveness. With a base clock speed of 2.1GHz, the HPE P24480-B21 Xeon Processor ensures that applications load faster, files are processed swiftly, and system operations are executed promptly. This level of efficiency is especially beneficial for users who engage in resource-intensive tasks and require fast response times.
Smooth Multitasking Experience
The base clock speed plays a crucial role in multitasking scenarios where the processor needs to handle multiple tasks simultaneously. With a higher base clock speed, the HPE P24480-B21 Xeon Processor can efficiently allocate processing power across different tasks, resulting in a smoother multitasking experience. Users can seamlessly switch between applications, run background processes, and perform various tasks without experiencing any noticeable slowdowns.
Improved Single-Thread Performance
While multicore processors excel at parallel processing, single-threaded applications still rely on high clock speeds to achieve optimal performance. The 2.1GHz base clock speed of the HPE P24480-B21 Xeon Processor ensures that single-threaded applications receive the necessary processing power to execute tasks swiftly. This is particularly beneficial for users who utilize software that primarily relies on a single core, such as certain gaming applications or legacy software.
Power Efficiency
In addition to performance benefits, the 2.1GHz base clock speed of the HPE P24480-B21 Xeon Processor offers improved power efficiency. By operating at a lower base clock speed, the processor consumes less power, resulting in reduced energy consumption and heat generation. This not only contributes to a more eco-friendly computing experience but also ensures that the system remains cool and stable even during prolonged usage.
Cache
The HPE P24480-B21 Xeon Processor boasts a generous 27.5MB cache, which plays a vital role in enhancing system performance and reducing data access latency. The cache acts as a high-speed memory buffer between the processor and main memory, allowing for faster data retrieval and improved overall efficiency.
Faster Data Access
With a larger cache size, the HPE P24480-B21 Xeon Processor can store more frequently accessed data closer to the CPU, reducing the need to retrieve information from slower main memory. This results in faster data access speeds, allowing applications and processes to retrieve data swiftly and efficiently. Users can experience improved performance across various tasks, including file transfers, database operations, and software loading times.
Reduced Latency
Latency refers to the time it takes for data to travel from one point to another within a system. The larger cache size of 27.5MB in the HPE P24480-B21 Xeon Processor helps reduce data access latency by keeping frequently accessed data readily available. This reduces the time spent waiting for data retrieval, resulting in faster overall system responsiveness and improved user experience.
Enhanced Workload Performance
Workloads that involve frequent data access and manipulation, such as virtualization, database management, and content creation, can benefit significantly from a larger cache size. The 27.5MB cache in the HPE P24480-B21 Xeon Processor allows for efficient handling of large datasets and complex operations, improving the overall performance of these resource-intensive applications. Users can expect faster data processing and smoother execution of tasks, even when dealing with demanding workloads.
Optimized System Efficiency
By reducing data access latency and enabling faster retrieval of frequently accessed information, the 27.5MB cache in the HPE P24480-B21 Xeon Processor contributes to overall system efficiency. The processor can perform tasks more quickly and with less strain on system resources, resulting in improved power utilization and reduced energy consumption. This not only benefits users by providing a more efficient computing experience but also contributes to cost savings and environmental sustainability.
Socket
The HPE P24480-B21 Xeon Processor features the FCLGA3647 socket, which is an integral part of the motherboard that allows the processor to be securely installed and connected to the rest of the system. The socket plays a crucial role in ensuring compatibility, upgradability, and efficient communication between the processor and other components.
Compatibility and Upgradability
The FCLGA3647 socket ensures compatibility with motherboards designed to support this specific socket type. This provides users with the flexibility to choose from a wide range of compatible motherboards that meet their specific requirements. Additionally, the socket's design allows for future upgradability, enabling users to easily swap out the HPE P24480-B21 Xeon Processor for a newer or more powerful CPU without needing to replace the entire motherboard.
Secure and Reliable Connection
The FCLGA3647 socket provides a secure and reliable connection between the processor and the motherboard. The socket design ensures proper alignment and contact, minimizing the risk of disconnection or damage during operation. This secure connection is crucial for maintaining stable system performance and preventing potential issues such as data corruption or system instability.
Efficient Communication
Efficient communication between the processor and other components is essential for optimal system performance. The FCLGA3647 socket enables efficient data transfer and communication between the processor, memory modules, and other peripherals. This ensures that data flows seamlessly between components, minimizing latency and maximizing overall system performance.
Industry Standard
The FCLGA3647 socket is an industry-standard socket type widely adopted by motherboard manufacturers. Its widespread use ensures availability of compatible motherboards and components, giving users peace of mind when it comes to compatibility and future upgradability. Users can easily find compatible accessories, such as coolers or RAM modules, ensuring a hassle-free building or upgrading experience.
Manufacturing Technology
The HPE P24480-B21 Xeon Processor incorporates state-of-the-art 14nm manufacturing technology, which refers to the size of the transistors used in the processor's fabrication process. The manufacturing technology employed in a processor has a significant impact on its performance, power efficiency, and heat generation.
Improved Performance
The 14nm manufacturing technology allows for the creation of transistors that are smaller and more densely packed than previous generations. This results in improved performance by enabling more transistors to be integrated into the same physical space. With more transistors, the HPE P24480-B21 Xeon Processor can perform calculations faster and execute instructions more efficiently, leading to overall improved system performance.
Power Efficiency
Smaller transistors made possible by 14nm manufacturing technology consume less power compared to larger transistors. The HPE P24480-B21 Xeon Processor benefits from this power efficiency, as it operates with reduced energy consumption. This not only contributes to lower electricity bills but also results in less heat generation, reducing the need for extensive cooling solutions and ensuring a more environmentally friendly computing experience.
Heat Dissipation
The smaller transistors in the 14nm manufacturing technology generate less heat compared to larger transistors. This allows the HPE P24480-B21 Xeon Processor to operate at lower temperatures, reducing the strain on cooling systems and contributing to system stability. The efficient heat dissipation offered by the 14nm manufacturing technology ensures that the processor can deliver consistent performance even during prolonged usage.
Future-Proofing
By incorporating 14nm manufacturing technology, the HPE P24480-B21 Xeon Processor ensures compatibility with future software and hardware advancements. As technology progresses, software and applications are optimized to leverage the benefits of processors built using newer manufacturing processes. Investing in a processor with 14nm technology provides users with a level of future-proofing, ensuring that their system remains capable of handling upcoming software updates and demanding workloads.