HPE 801231-B21 Intel Xeon E5-2630V4 10-Core 2.2GHz 25MB L3 Cache 8GT/S QPI Processor Kit

Cores: 10

The HPE Intel Xeon E5-2630V4 Processor Kit is equipped with an impressive 10 cores, making it a powerful choice for users in need of high-performance computing. The number of cores directly impacts the processor's ability to handle multiple tasks simultaneously, allowing for faster and more efficient computing.

Benefits of 10 Cores

Enhanced Multitasking

With 10 cores, this processor can handle multiple tasks at once, without compromising on performance. This is particularly beneficial for users who engage in resource-intensive activities such as video editing, 3D rendering, or running virtual machines. The additional cores ensure smooth multitasking and reduce the chances of system slowdowns or crashes.

Improved Performance

The increased number of cores translates to improved performance across a wide range of applications. Whether you're gaming, running complex simulations, or working with large datasets, the 10 cores allow for faster data processing and significantly reduce the overall processing time.

Efficient Parallel Processing

Parallel processing involves dividing complex tasks into smaller, more manageable ones that can be executed simultaneously. With 10 cores, the processor can distribute the workload efficiently, maximizing performance and optimizing resource utilization. This is especially beneficial in scenarios where tasks require heavy data crunching or calculations.

Importance of 10 Cores

Future-Proofing

As technology continues to advance rapidly, software and applications are becoming more demanding. By investing in a processor with 10 cores, users can ensure their system remains capable of handling future updates and requirements. This level of processing power is likely to remain relevant for several years, providing users with a reliable and efficient computing experience.

Productivity Boost

For professionals who rely on their computers to accomplish tasks efficiently, the 10 cores offer a significant productivity boost. Whether you're working on complex projects or running multiple applications simultaneously, the processor's multitasking capabilities allow for seamless transitions between tasks and a more efficient workflow.

Gaming Performance

Gamers can also benefit from the 10 cores, as modern games often require significant processing power. The additional cores ensure smooth gameplay, reduced lag, and improved frame rates. This allows gamers to fully immerse themselves in their favorite titles without any performance limitations.

Base Clock Speed: 2.2GHz

The HPE Intel Xeon E5-2630V4 Processor Kit features a base clock speed of 2.2GHz. The base clock speed represents the default frequency at which the processor operates under normal conditions. It is an essential specification that determines the overall performance and responsiveness of the system.

Benefits of 2.2GHz Base Clock Speed

Speed and Responsiveness

The base clock speed of 2.2GHz ensures that the processor can handle everyday tasks with ease. From web browsing and document editing to media playback and general computing, the system remains responsive and capable of delivering a smooth user experience.

Efficient Task Execution

The base clock speed plays a crucial role in determining how quickly tasks are executed. With a higher clock speed, the processor can complete instructions faster, resulting in reduced waiting times for users. This is particularly important for resource-intensive applications such as video editing or encoding, where every second counts.

Optimized Power Consumption

While high clock speeds are desirable for performance, they often lead to increased power consumption and heat generation. The 2.2GHz base clock speed strikes a balance between performance and energy efficiency. It allows users to enjoy a powerful computing experience without significantly impacting their electricity bills or requiring excessive cooling measures.

Importance of 2.2GHz Base Clock Speed

Smooth Multitasking

The 2.2GHz base clock speed ensures that the processor can handle multiple tasks simultaneously without compromising performance. Whether you're running multiple applications, handling large datasets, or multitasking between various projects, the system remains responsive and capable of delivering a seamless user experience.

Compatibility with Software and Applications

Many software and applications are designed to take advantage of processors with higher clock speeds. By opting for a processor with a 2.2GHz base clock speed, users can ensure compatibility with a wide range of software, allowing them to leverage the full capabilities of their applications without any performance limitations.

Gaming Performance

Gamers can also benefit from the 2.2GHz base clock speed, as it ensures smooth gameplay and reduced lag. The processor's ability to quickly process game instructions translates into improved frame rates, enhanced graphics, and an overall immersive gaming experience.

L3 Cache: 25MB

The HPE Intel Xeon E5-2630V4 Processor Kit boasts a generous L3 cache size of 25MB. The L3 cache is an essential component of the processor's memory hierarchy and plays a crucial role in enhancing system performance and responsiveness.

Benefits of 25MB L3 Cache

Improved Data Access

The larger L3 cache allows for more data to be stored closer to the processor cores, enabling faster access times. This results in improved overall system performance, especially when dealing with frequently accessed data or large datasets. The processor can quickly retrieve information from the cache without having to access slower system memory.

Reduced Memory Latency

With a larger L3 cache, the processor can store a significant amount of data that is frequently used or accessed. This reduces the need to fetch data from main memory, which can be a time-consuming process. The reduced memory latency ensures faster and more efficient data retrieval, resulting in improved system responsiveness.

Enhanced Multitasking Performance

The 25MB L3 cache is particularly beneficial for multitasking scenarios where multiple applications or threads are competing for system resources. The larger cache size allows for better resource allocation and reduces the chances of cache thrashing, where data needs to be constantly evicted and reloaded from memory. This leads to smoother multitasking and improved overall system performance.

Importance of 25MB L3 Cache

Processing Large Datasets

For users working with large datasets or performing data-intensive tasks such as video editing or scientific simulations, the 25MB L3 cache ensures efficient handling of data. The processor can store a significant portion of the dataset in the cache, reducing the need for frequent memory accesses and improving overall processing speed.

Optimized Virtualization Performance

In virtualized environments where multiple virtual machines share system resources, the larger L3 cache helps improve performance and reduce contention. With more data stored in the cache, virtual machines can access frequently used data quickly, resulting in better virtual machine performance and reduced latency.

Smooth Gaming Experience

Gamers can also benefit from the 25MB L3 cache, as it allows for faster data retrieval and reduced loading times. Games often rely on accessing large amounts of data, such as textures, models, and audio assets. With a larger cache, the processor can quickly access this data, leading to smoother gameplay and reduced stuttering.

Qpi Speed: 8GT/S

The HPE Intel Xeon E5-2630V4 Processor Kit features a Qpi Speed of 8GT/S. The QuickPath Interconnect (QPI) is a high-speed bus that connects the processor to other system components, such as memory and input/output devices. The Qpi Speed determines the bandwidth and communication capabilities of the processor.

Benefits of 8GT/S Qpi Speed

High-Speed Data Transfer

The 8GT/S Qpi Speed enables fast and efficient data transfer between the processor and other system components. This ensures that data-intensive tasks, such as memory access or transferring large files, can be performed quickly and without bottlenecks. The high-speed QPI allows for smooth and responsive system performance.

Improved System Responsiveness

With a higher Qpi Speed, the processor can communicate with other system components more quickly, reducing overall latency. This results in improved system responsiveness and reduced waiting times for users. Whether you're launching applications, accessing files, or performing complex calculations, the 8GT/S Qpi Speed ensures smooth and efficient operation.

Enhanced Scalability

The high Qpi Speed of 8GT/S is particularly beneficial in multi-processor systems or environments where scalability is crucial. It allows for efficient communication between multiple processors, ensuring optimal performance and resource utilization. This makes it an ideal choice for users who require high-performance computing in server or workstation environments.

Importance of 8GT/S Qpi Speed

Server Performance

In server environments, the Qpi Speed plays a critical role in determining overall performance and responsiveness. With an 8GT/S Qpi Speed, the processor can efficiently handle high volumes of data requests, resulting in improved server responsiveness and reduced latency. This is particularly important for applications that require real-time data processing or quick response times.

Workstation Efficiency

Workstations often require seamless communication between the processor and other components, such as graphics cards or memory modules. The 8GT/S Qpi Speed ensures efficient data transfer, enabling workstations to handle resource-intensive tasks with ease. Whether you're working with complex 3D models, running simulations, or editing high-resolution videos, the high Qpi Speed ensures smooth operation and optimal workstation efficiency.

Scalable Computing Solutions

For users who require scalable computing solutions, such as clusters or multi-processor systems, the 8GT/S Qpi Speed is essential. It enables efficient communication between the processors, ensuring that tasks are distributed evenly and resources are utilized effectively. The high-speed QPI eliminates potential bottlenecks and allows for seamless scaling of computing power, making it an ideal choice for users in need of high-performance computing capabilities.

Socket: FCLGA 2011

The HPE Intel Xeon E5-2630V4 Processor Kit utilizes the FCLGA 2011 socket, which stands for Flip-Chip Land Grid Array. The socket is the physical interface that connects the processor to the motherboard, enabling communication and power delivery.

Benefits of FCLGA 2011 Socket

Compatibility and Upgradeability

The FCLGA 2011 socket offers excellent compatibility and upgradeability options. It ensures compatibility with a wide range of motherboards designed to support this socket type. Users can easily upgrade their existing systems by replacing the processor with compatible models without having to change the entire motherboard.

Improved Thermal Performance

The FCLGA 2011 socket design allows for efficient heat dissipation from the processor. The direct contact between the processor and the heatsink ensures optimal thermal transfer, reducing the risk of overheating and improving system stability. This is particularly beneficial for users engaging in resource-intensive tasks that generate significant heat, such as gaming or video editing.

Secure and Reliable Connection

The FCLGA 2011 socket provides a secure and reliable connection between the processor and the motherboard. The flip-chip design ensures proper alignment and contact, minimizing the chances of connectivity issues or data corruption. This results in a stable and reliable system that can handle demanding tasks without interruptions.

Importance of FCLGA 2011 Socket

Future-Proofing

The FCLGA 2011 socket is widely used and supported in the market, ensuring long-term compatibility with a wide range of motherboards. By opting for a processor with this socket type, users can future-proof their systems, allowing for easy upgrades or replacements as technology continues to advance.

Customizability

The FCLGA 2011 socket allows users to customize their systems according to their specific needs. Whether you're building a gaming rig, a high-performance workstation, or a server, the socket provides flexibility in choosing compatible components. This enables users to tailor their systems to meet their exact requirements without being limited by proprietary designs or compatibility issues.

Reliable Performance

The secure connection provided by the FCLGA 2011 socket ensures reliable performance even under heavy workloads. Users can trust that their systems will deliver consistent results without any connectivity-related issues. This is particularly important for professional users who rely on their systems for critical tasks that require stability and reliability.

Power Consumption: 85W

The HPE Intel Xeon E5-2630V4 Processor Kit has a power consumption of 85W. Power consumption is a crucial consideration for users concerned about energy efficiency, heat generation, and operating costs.

Benefits of 85W Power Consumption

Energy Efficiency

The 85W power consumption ensures that the processor operates efficiently without drawing excessive power. This is particularly important for users who prioritize energy efficiency or have strict power limitations. The processor strikes a balance between performance and power consumption, allowing users to enjoy a powerful computing experience without significantly impacting their electricity bills.

Cooler Operation

The lower power consumption results in reduced heat generation, leading to cooler operation. This is especially beneficial in environments where cooling can be a challenge, such as small form factor systems or tightly packed server racks. The lower heat output ensures optimal system stability and reliability, minimizing the risk of thermal throttling or overheating.

Cost Savings

By consuming less power, the 85W processor contributes to cost savings over time. Users can benefit from lower electricity bills while still enjoying a powerful computing experience. Additionally, the reduced heat generation may result in lower cooling costs, further enhancing cost savings in the long run.

Importance of 85W Power Consumption

Environmentally Friendly Computing

The 85W power consumption aligns with environmental sustainability goals by reducing energy consumption and carbon footprint. Users who prioritize eco-friendly computing can benefit from this processor's energy-efficient design, contributing to a greener and more sustainable future.

Noise Reduction

The lower power consumption leads to reduced heat output, which in turn results in quieter operation. Users can enjoy a quieter computing experience as the cooling system doesn't need to work as hard to dissipate heat. This is particularly beneficial for users who value a quiet working or gaming environment.

Compatibility with Power-Limited Environments

In power-limited environments, such as data centers or remote locations with limited power supply, the 85W power consumption ensures compatibility and efficient operation. The processor can deliver high-performance computing without exceeding the available power budget, making it an ideal choice for users working in such environments.

Manufacturing Technology: 14NM

The HPE Intel Xeon E5-2630V4 Processor Kit is manufactured using the 14nm process technology. The manufacturing technology refers to the size of the transistors and circuits on the processor's die. A smaller manufacturing technology offers several benefits in terms of performance, power efficiency, and heat generation.

Benefits of 14nm Manufacturing Technology

Improved Performance

The 14nm manufacturing technology allows for more transistors to be packed into a smaller area, resulting in improved performance. The smaller transistors enable faster data processing and reduced signal delay, leading to overall better system performance. Users can expect faster application launches, quicker data transfers, and enhanced computing capabilities.

Power Efficiency

The smaller transistors and circuits in the 14nm manufacturing technology require less power to operate efficiently. This leads to improved power efficiency and reduced energy consumption. Users can enjoy a high-performance computing experience without compromising on energy efficiency or increasing their electricity bills.

Heat Reduction

The 14nm manufacturing technology reduces heat generation due to its smaller transistor size. This results in a cooler operating environment, reducing the need for extensive cooling measures. Users can benefit from improved system stability and reliability as the processor operates at lower temperatures.

Importance of 14nm Manufacturing Technology

Future-Proofing

By opting for a processor manufactured using the 14nm process technology, users can ensure their systems remain relevant and capable of handling future software advancements. The smaller transistor size is likely to remain a standard for several years, providing users with a reliable and efficient computing experience.

Power-Conscious Computing