P24656-B21 HPE Xeon 20-core 3.10GHz 35.75MB L3 Cache Socket FCLGA3647 14nm 205W Processor
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Product Overview of the HPE P24656-B21
- Category: Server Processor
- Brand: HPE
- Model: Gold 6242R
- Part Number: P24656-B21
Core Specifications
- Processor Core Count: 20-core
- Base Clock Speed: 3.10 GHz
- Max Turbo Frequency: Up to 4.10 GHz
- Number of UPI Links: 2 for enhanced data transfer
- 64-bit Architecture: Fully compatible with 64-bit instruction sets
- Instruction Set Extensions: Supports Intel® SSE4.2, AVX, AVX2, AVX-512 for optimized processing
Cache Memory Details
- L3 Cache: 35.75 MB, providing high-speed memory access
Design & Thermal Specifications
- Manufacturing Technology: 14 nm lithography for efficient performance
- Max TDP: 205 W, designed for power-efficient operations
- Compatible Socket: FCLGA3647, ensuring compatibility with select systems
Memory Configuration and Support
- Maximum Memory Capacity: Up to 1 TB, based on memory type
- Supported Memory Types: DDR4-2933 for faster data handling
- Max Memory Speed: 2.9 GHz, delivering high-speed data transfer
- Memory Channels: 6 channels, enhancing multi-tasking efficiency
- ECC Memory Support: Yes, providing error correction capability for improved reliability
Compatibility and Performance
- Ideal for: Data centers, virtualized environments, and heavy computational tasks
- Optimal Compatibility: Fits HPE systems requiring high performance and reliability
Technical Information
Processor Specifications
- Core Count: 20-core processor for enhanced multitasking and performance
- Base Clock Speed: 3.10 GHz, optimizing efficient data processing
- Max Turbo Frequency: Up to 4.10 GHz for peak performance under load
- UPI Links: Dual UPI Links for improved interconnect bandwidth
- Instruction Set: 64-bit architecture, supporting Intel® SSE4.2, AVX, AVX2, and AVX-512 extensions
Core Count: 20
The HPE P24656-B21 Processor is equipped with an impressive core count of 20, making it a powerhouse for demanding workloads and resource-intensive tasks. With each core capable of executing multiple instructions simultaneously, users can experience enhanced performance and improved multitasking capabilities.
Improved Multithreading
With a higher core count, the HPE P24656-B21 Processor excels at handling multithreaded applications. Multithreading allows for parallel execution of multiple tasks, enabling users to accomplish more in less time. Whether you are running virtual machines, rendering complex graphics, or running database queries, the increased core count ensures smooth and efficient performance.
Enhanced Productivity
The 20 cores of the HPE P24656-B21 Processor provide ample processing power for tasks that require significant computational resources. Users can experience faster response times when working with demanding software applications, resulting in increased productivity and reduced wait times. This is especially beneficial for professionals in industries such as engineering, design, and scientific research.
Optimized Workload Distribution
With a higher core count, the HPE P24656-B21 Processor can effectively distribute the workload across multiple cores. This helps prevent bottlenecks and ensures that each core is utilized efficiently, resulting in improved overall system performance. Whether you are running multiple instances of resource-intensive software or hosting virtual environments, the 20 cores allow for efficient workload distribution.
Parallel Processing
Parallel processing is a technique that allows multiple cores to work together on a single task, dividing the workload and significantly reducing processing time. The 20 cores of the HPE P24656-B21 Processor enable efficient parallel processing, making it ideal for applications that can take advantage of this technology. Tasks such as video encoding, scientific simulations, and data analysis can benefit greatly from parallel processing, allowing for faster results and increased efficiency.
Seamless Virtualization
Virtualization has become an integral part of modern computing environments, enabling the efficient utilization of hardware resources. With 20 cores, the HPE P24656-B21 Processor can handle multiple virtual machines simultaneously, providing a seamless and responsive virtualization experience. This is particularly important for businesses that rely on virtualization for server consolidation, workload optimization, and resource allocation.
Future-Proofing
Investing in a processor with a high core count like the HPE P24656-B21 ensures future-proofing your system. As software applications continue to become more resource-intensive and demanding, having a higher number of cores will enable your system to handle these advancements without the need for frequent upgrades. This not only saves costs in the long run but also provides peace of mind knowing that your system is prepared for future software developments.
Base Clock Speed: 3.10GHz
The base clock speed of the HPE P24656-B21 Processor is 3.10GHz, providing a solid foundation for efficient and responsive performance. The base clock speed represents the frequency at which the processor operates under normal conditions without any overclocking or turbo boost.
Reliable Performance
The 3.10GHz base clock speed ensures reliable and consistent performance across a wide range of applications. It sets the baseline for the processor's capabilities and determines how quickly it can execute instructions. With a higher base clock speed, users can expect faster response times and smoother operation when performing everyday tasks such as web browsing, document editing, and multimedia playback.
Snappy System Responsiveness
The base clock speed directly influences the overall responsiveness of your system. A higher base clock speed means that tasks can be executed more quickly, resulting in a snappy and fluid user experience. Whether you are launching applications, switching between tasks, or navigating through menus, the 3.10GHz base clock speed ensures that your system responds promptly to your commands.
Efficient Single-Threaded Performance
While a higher core count is beneficial for multithreaded tasks, the base clock speed is crucial for single-threaded performance. Single-threaded applications rely on the performance of a single core, and a higher base clock speed allows for faster execution of these tasks. This is particularly important for applications that are not optimized for multithreading, such as certain gaming titles or legacy software.
Gaming Performance
Gamers can benefit from the 3.10GHz base clock speed of the HPE P24656-B21 Processor. Many games heavily rely on single-threaded performance, and a higher base clock speed ensures smoother gameplay with faster frame rates. The increased clock speed reduces potential bottlenecks and provides a more immersive gaming experience.
Quick Application Launches
The 3.10GHz base clock speed allows for quick application launches, eliminating frustrating delays when opening software or loading large files. Whether you are launching resource-intensive applications such as video editing software or simply opening web browsers and productivity tools, the higher base clock speed ensures that your system responds promptly.
Smooth Multimedia Playback
Multimedia playback, including high-definition videos and audio rendering, can be demanding on system resources. The 3.10GHz base clock speed of the HPE P24656-B21 Processor ensures smooth and seamless multimedia playback without stuttering or lag. Whether you are watching movies, editing videos, or listening to high-quality audio, the higher base clock speed provides an optimal multimedia experience.
L3 Cache: 35.75MB
The HPE P24656-B21 Processor features a generous L3 cache size of 35.75MB, providing faster access to frequently accessed data and significantly improving overall system performance.
Improved Data Access
The large L3 cache size of 35.75MB allows the processor to store a substantial amount of frequently accessed data closer to the cores. This reduces the time required to fetch data from the main memory, resulting in faster access and improved performance. Whether you are running applications that rely on large datasets or performing data-intensive tasks such as database queries, the larger L3 cache size ensures minimal latency and improved responsiveness.
Reduced Memory Bottlenecks
The L3 cache acts as a buffer between the processor cores and the main memory. With a larger cache size, the processor can store more data closer to the cores, reducing the need to fetch data from the comparatively slower main memory. This helps alleviate memory bottlenecks and ensures smooth and efficient operation even when dealing with large datasets or memory-intensive workloads.
Enhanced Multitasking
The larger L3 cache size enables better multitasking capabilities by providing ample space for storing data related to multiple running tasks. This allows for seamless context switching between tasks, reducing the need to fetch data from memory each time a task is switched. Users can experience improved multitasking performance, especially when running resource-intensive applications simultaneously.
Faster Application Load Times
The 35.75MB L3 cache size greatly improves application load times by storing frequently accessed program instructions and data closer to the processor cores. This reduces the time required to load applications and improves overall system responsiveness. Whether you are launching productivity tools or resource-intensive applications, the larger L3 cache size ensures quick application load times, enabling you to start working without delay.
Efficient Virtual Machine Performance
Virtual machines rely on efficient memory management to ensure optimal performance. The larger L3 cache size of the HPE P24656-B21 Processor allows for improved virtual machine performance by reducing the need to fetch data from the main memory. This results in faster response times and smoother operation when running multiple virtual machines simultaneously.
Seamless Gaming Experience
Gamers can benefit from the larger L3 cache size, as it allows for faster access to game data and textures. This translates to shorter loading times, reduced stuttering, and improved overall gaming performance. Whether you are playing graphics-intensive games or exploring vast virtual worlds, the larger L3 cache size ensures a seamless and immersive gaming experience.
Socket Type: FCLGA3647
The HPE P24656-B21 Processor features the FCLGA3647 socket type, which offers compatibility with a wide range of server and workstation motherboards. The socket type determines the physical interface between the processor and the motherboard, ensuring proper connectivity and optimal performance.
Flexible Compatibility
The FCLGA3647 socket type provides flexibility in terms of motherboard compatibility. With this socket type, users can choose from a variety of server and workstation motherboards that support the HPE P24656-B21 Processor. This ensures compatibility with existing systems or allows for easy upgrades without significant changes to the overall system configuration.
Scalability and Expandability
The FCLGA3647 socket type is designed to support powerful processors like the HPE P24656-B21, enabling scalability and expandability for future system upgrades. Users can start with a single processor configuration and easily add additional processors as their computing needs grow. This provides room for expansion without requiring a complete overhaul of the system infrastructure.
Reliable Performance
The FCLGA3647 socket type ensures a secure and reliable connection between the processor and the motherboard. The robust physical interface guarantees stable data transfer rates and optimal performance. Users can rely on the FCLGA3647 socket type to provide a solid foundation for their systems, ensuring consistent and uninterrupted operation even under heavy workloads.
Server-Class Performance
The FCLGA3647 socket type is commonly used in server-class systems, indicating its ability to handle demanding workloads and mission-critical applications. The HPE P24656-B21 Processor, with its FCLGA3647 socket compatibility, is an ideal choice for server deployments that require high-performance computing capabilities. Whether you are running complex databases, hosting virtual environments, or performing intensive data processing, the FCLGA3647 socket type ensures reliable server-class performance.
Workstation Capabilities
The FCLGA3647 socket type also caters to workstation environments that demand superior processing power for resource-intensive tasks. Workstations used in industries such as engineering, architecture, and media production can take advantage of the HPE P24656-B21 Processor's FCLGA3647 socket compatibility to deliver efficient and responsive performance. Users can benefit from accelerated rendering times, smooth real-time simulations, and seamless multitasking capabilities.
Manufacturing Technology: 14nm
The HPE P24656-B21 Processor is built using a 14nm manufacturing technology process, which refers to the size of transistors used in its construction. The manufacturing technology plays a crucial role in determining the processor's power efficiency, performance, and overall capabilities.
Improved Power Efficiency
The 14nm manufacturing technology offers improved power efficiency compared to previous generations. Smaller transistors result in reduced power consumption, allowing the HPE P24656-B21 Processor to deliver high performance while minimizing energy usage. This is particularly important for businesses aiming to reduce their carbon footprint and lower operating costs.
Enhanced Performance
The 14nm manufacturing technology enables the HPE P24656-B21 Processor to achieve higher clock speeds and improved performance. Smaller transistors allow for faster switching times, reducing latency and enabling faster data processing. Users can experience snappier system responsiveness and improved performance in both single-threaded and multithreaded applications.
Heat Dissipation
The 14nm manufacturing technology also contributes to efficient heat dissipation. Smaller transistors generate less heat during operation, reducing the strain on cooling systems and ensuring optimal thermal management. This is crucial for maintaining system stability, especially when running resource-intensive applications or operating in environments with limited cooling capabilities.
Overclocking Potential
The 14nm manufacturing technology provides a solid foundation for overclocking enthusiasts. With smaller transistors and improved power efficiency, the HPE P24656-B21 Processor can handle higher clock speeds while remaining within safe temperature limits. Overclocking allows users to push the limits of their processors, extracting additional performance for demanding tasks such as gaming, content creation, or scientific simulations.
Future-Proofing
Investing in a processor built using the 14nm manufacturing technology ensures future-proofing your system to some extent. As technology continues to evolve, manufacturers will likely transition to even smaller transistor sizes, resulting in further performance gains and power efficiency improvements. By choosing a processor with a 14nm manufacturing technology process like the HPE P24656-B21, users can benefit from the latest advancements while enjoying a longer lifespan for their systems.
Power Consumption: 205W
The HPE P24656-B21 Processor has a power consumption rating of 205W, indicating the amount of electrical power it requires under typical operating conditions. Understanding the power consumption of a processor is essential for system builders and users concerned with energy efficiency and heat management.
Energy Efficiency
The 205W power consumption rating of the HPE P24656-B21 Processor reflects its high-performance capabilities. While it may consume more power than lower-end processors, it provides significant processing power for demanding workloads. However, it is important to note that higher power consumption also results in increased heat generation, which should be taken into consideration when designing cooling solutions.
Performance to Power Ratio
The power consumption rating of 205W signifies the processor's ability to deliver high performance while operating within defined power limits. The higher power consumption allows for faster clock speeds and improved multitasking capabilities. Users can achieve efficient performance in tasks such as video editing, 3D rendering, and scientific simulations without compromising system stability.
Heat Management
The 205W power consumption rating highlights the importance of effective heat management. Higher power consumption generates more heat, requiring robust cooling solutions to ensure optimal operating temperatures. Suitable cooling mechanisms such as advanced heatsinks, liquid cooling, or high-performance fans are recommended to maintain system stability and prevent thermal throttling.
Cooling Solutions
To ensure proper heat dissipation, users should invest in cooling solutions that can handle the 205W power consumption of the HPE P24656-B21 Processor. Advanced heatsinks with larger surface areas, liquid cooling systems with efficient radiators, or high-performance fans can be utilized to maintain optimal operating temperatures. Proper cooling not only ensures system stability but also extends the lifespan of the processor.
Energy Cost Considerations
While the HPE P24656-B21 Processor has a higher power consumption rating, it is important to consider the associated energy costs. As power consumption increases, so do energy costs for running the processor over extended periods. Businesses and individuals concerned with energy efficiency should factor in the power consumption when determining the long-term operational costs of their systems.
In conclusion, the HPE P24656-B21 Processor offers impressive features that cater to users with demanding workloads and high-performance requirements. The 20-core count ensures efficient multitasking and improved performance in multithreaded applications. The 3.10GHz base clock speed provides a solid foundation for responsive system operation, quick application launches, and seamless multimedia playback. The 35.75MB L3 cache size enhances data access and reduces bottlenecks, resulting in improved overall system performance. The FCLGA3647 socket type ensures compatibility with a wide range of server and workstation motherboards, providing flexibility and scalability. The 14nm manufacturing technology offers improved power efficiency, enhanced performance, and efficient heat dissipation. Lastly, the 205W power consumption rating reflects the processor's high-performance capabilities, emphasizing the importance of effective heat management and energy cost considerations. With these features, the HPE P24656-B21 Processor is a reliable and powerful choice for users seeking exceptional performance in demanding computing environments.