HPE Intel Xeon E5-2620V4 8-Core 2.1GHz Processor (864640-001)

Core Count

The HPE Xeon E5-2620V4 Processor is equipped with 8 cores, making it a powerful and efficient choice for a wide range of computing needs. The core count refers to the number of independent processing units within the processor, and having more cores allows for parallel processing, enabling faster and more efficient multitasking.

Increased Performance

With 8 cores, the HPE Xeon E5-2620V4 Processor offers increased performance compared to processors with fewer cores. Each core can handle its own set of tasks simultaneously, which improves overall system performance and responsiveness. This is particularly beneficial for resource-intensive tasks such as video editing, data analysis, and virtualization.

Improved Multitasking

The greater number of cores in the HPE Xeon E5-2620V4 Processor allows for improved multitasking capabilities. Users can run multiple applications simultaneously without experiencing significant slowdowns or performance bottlenecks. This is especially useful for professionals who need to run multiple software programs simultaneously, such as designers working with complex graphics software or engineers running simulations.

Efficient Virtualization

Virtualization is increasingly important in today's computing landscape, allowing users to run multiple virtual machines on a single physical server. The 8 cores of the HPE Xeon E5-2620V4 Processor enable efficient virtualization by providing ample processing power to handle the demands of multiple virtual environments. This allows businesses to consolidate their IT infrastructure, reduce costs, and improve overall system efficiency.

Faster Rendering

Rendering tasks, such as 3D modeling or video rendering, can be highly demanding on a processor. The 8 cores of the HPE Xeon E5-2620V4 Processor allow for faster rendering times, as each core can handle a portion of the rendering workload simultaneously. This can significantly reduce the time required to complete rendering tasks, enabling professionals in industries such as animation or visual effects to work more efficiently.

Scalability

The 8-core design of the HPE Xeon E5-2620V4 Processor also offers scalability for future growth and expansion. As software and applications become more resource-intensive, having additional cores provides headroom for increased performance and the ability to handle future workloads without the need for a complete hardware upgrade.

Base Clock Speed

The HPE Xeon E5-2620V4 Processor features a base clock speed of 2.1GHz. The base clock speed refers to the frequency at which the processor operates out of the box, without any overclocking or turbo boost applied. It is an essential specification that determines the overall speed and responsiveness of the processor.

Fast and Responsive Performance

The 2.1GHz base clock speed of the HPE Xeon E5-2620V4 Processor ensures fast and responsive performance across a wide range of computing tasks. It allows for quick execution of instructions and smooth operation of applications, resulting in a snappy user experience. Whether you're browsing the web, editing documents, or running resource-intensive software, the base clock speed ensures that tasks are completed swiftly.

Smooth Multitasking

The base clock speed plays a crucial role in multitasking scenarios, allowing the processor to handle multiple tasks simultaneously without experiencing significant slowdowns. With a base clock speed of 2.1GHz, the HPE Xeon E5-2620V4 Processor ensures smooth multitasking performance, enabling users to work on various applications and processes concurrently without noticeable lag or performance degradation.

Efficient Power Consumption

The base clock speed of a processor affects its power consumption. The HPE Xeon E5-2620V4 Processor's 2.1GHz base clock speed strikes a balance between performance and energy efficiency. It allows for efficient power consumption, reducing electricity costs and contributing to a greener computing environment.

Reliable Stability

A stable base clock speed ensures reliable and consistent performance over extended periods. The 2.1GHz base clock speed of the HPE Xeon E5-2620V4 Processor provides a stable foundation for running demanding applications and tasks without encountering unexpected performance fluctuations. This stability is crucial for professionals who rely on their systems for critical workloads.

Overclocking Potential

While the base clock speed provides excellent performance out of the box, it can also serve as a starting point for overclocking enthusiasts. Overclocking allows users to push the processor beyond its rated speed, extracting additional performance when needed. The 2.1GHz base clock speed of the HPE Xeon E5-2620V4 Processor offers a solid foundation for overclocking, providing users with the potential to achieve even higher speeds for specific tasks or applications.

Cache

The HPE Xeon E5-2620V4 Processor boasts an impressive 20MB L3 cache. The cache is a small, high-speed memory located on the processor chip, which serves as a temporary storage space for frequently accessed data. Having a larger cache size offers several benefits in terms of performance, responsiveness, and overall system efficiency.

Faster Data Access

The 20MB L3 cache of the HPE Xeon E5-2620V4 Processor ensures faster data access for frequently used instructions and data. By storing commonly accessed information closer to the processor cores, the cache reduces the time needed to retrieve data from the main memory. This results in improved overall system responsiveness and faster execution of tasks.

Improved Application Performance

A larger cache size helps improve application performance by reducing the need to fetch data from slower main memory. The 20MB L3 cache of the HPE Xeon E5-2620V4 Processor can hold a substantial amount of frequently used instructions and data, allowing applications to run more smoothly and efficiently. This is particularly beneficial for applications that require frequent access to large datasets, such as databases or scientific simulations.

Better Gaming Experience

The cache size plays a vital role in gaming, where quick access to game assets and instructions is crucial for smooth gameplay. With a generous 20MB L3 cache, the HPE Xeon E5-2620V4 Processor ensures faster loading times, reduced stuttering, and improved overall gaming experience. Gamers can enjoy seamless gameplay with minimal lag, even in graphically demanding titles.

Efficient Virtualization Management

In virtualized environments, where multiple virtual machines share the same physical resources, having a larger cache can significantly enhance performance. The 20MB L3 cache of the HPE Xeon E5-2620V4 Processor allows for efficient management of virtualized workloads by reducing the contention for memory access. This enables smoother and more responsive virtual machine performance, resulting in improved overall system efficiency.

Streamlined Content Creation

Content creators, such as video editors or graphic designers, often work with large files and complex projects that require quick access to assets and resources. The generous cache size of the HPE Xeon E5-2620V4 Processor ensures swift data retrieval, allowing for seamless content creation workflows. Users can experience minimal delays when working with high-resolution videos, rendering complex 3D models, or manipulating large image files.

QPI Speed

The HPE Xeon E5-2620V4 Processor features a QPI (Quick Path Interconnect) speed of 8GT/s. The QPI speed is a measure of the data transfer rate between the processor and other components, such as memory and peripherals. A higher QPI speed translates to faster communication and improved overall system performance.

Enhanced Data Transfer

With a QPI speed of 8GT/s, the HPE Xeon E5-2620V4 Processor facilitates enhanced data transfer rates between the processor and other system components. This results in faster overall system performance, reduced latency, and improved responsiveness. Whether you're loading large files, accessing memory-intensive applications, or transferring data to external storage devices, the higher QPI speed ensures efficient data transfer and minimal bottlenecks.

Seamless Memory Access

The QPI speed plays a crucial role in memory access, allowing the processor to communicate with RAM at high speeds. The 8GT/s QPI speed of the HPE Xeon E5-2620V4 Processor ensures seamless memory access, reducing the time needed to fetch data from the main memory. This results in improved application performance, faster multitasking, and overall system efficiency.

Accelerated Peripheral Performance

Peripherals such as storage devices, graphics cards, and network adapters rely on efficient communication with the processor to achieve optimal performance. The higher QPI speed of 8GT/s in the HPE Xeon E5-2620V4 Processor accelerates peripheral performance by enabling faster data transfer between the processor and these devices. This leads to reduced loading times, improved I/O performance, and smoother operation of peripherals, ultimately enhancing the user experience.

Scalability and Expansion

A higher QPI speed provides scalability and expansion options for future system upgrades. As technology advances and new components become available, having a faster data transfer rate ensures compatibility and optimal performance with these advancements. The 8GT/s QPI speed of the HPE Xeon E5-2620V4 Processor allows for seamless integration of new hardware components, ensuring that your system remains up-to-date and capable of handling future workloads.

Socket

The HPE Xeon E5-2620V4 Processor features an FCLGA2011-3 socket. The socket refers to the physical interface that connects the processor to the motherboard, allowing for proper electrical and mechanical connections. The choice of socket is essential as it determines compatibility with a specific motherboard and influences system performance and expandability.

Compatibility and Upgradability

The FCLGA2011-3 socket of the HPE Xeon E5-2620V4 Processor ensures compatibility with motherboards designed to support this socket type. This allows for easy integration into existing systems or future upgrades. Users can leverage the performance benefits of the HPE Xeon E5-2620V4 Processor without the need for costly motherboard replacements, making it a cost-effective choice for enhancing system performance.

Expandable Platform

The FCLGA2011-3 socket provides an expandable platform for future upgrades and enhancements. As technology advances, newer processors with improved performance become available, and having a compatible socket ensures compatibility with these upgrades. The HPE Xeon E5-2620V4 Processor's FCLGA2011-3 socket allows users to keep their systems up-to-date by easily upgrading to a more powerful processor without the need for a complete system overhaul.

Improved Overclocking Potential

The choice of socket can also impact overclocking potential. The FCLGA2011-3 socket of the HPE Xeon E5-2620V4 Processor is known for its robustness and ability to handle higher power demands, making it suitable for overclocking enthusiasts. Users looking to push their processor beyond its rated speeds can take advantage of the FCLGA2011-3 socket's capabilities to achieve higher clock speeds and extract additional performance.

Reliable Electrical and Mechanical Connectivity

The FCLGA2011-3 socket ensures reliable electrical and mechanical connectivity between the processor and the motherboard. The socket's design features a robust contact interface that provides secure and stable connections, reducing the risk of intermittent connections or performance issues. This ensures a consistent and reliable computing experience, even under demanding workloads or during extended periods of use.

Power

The HPE Xeon E5-2620V4 Processor has a power rating of 85W. The power rating refers to the amount of power the processor consumes under typical operating conditions. It is an essential specification to consider as it affects system energy efficiency, cooling requirements, and overall power consumption.

Energy Efficiency

The 85W power rating of the HPE Xeon E5-2620V4 Processor signifies its energy-efficient design. The processor is designed to deliver high-performance computing while minimizing power consumption. This translates to lower electricity costs and reduced environmental impact, making it an eco-friendly choice for businesses and individuals conscious of their energy consumption.

Thermal Management

A lower power rating, such as the 85W of the HPE Xeon E5-2620V4 Processor, results in reduced heat generation during operation. This allows for more efficient thermal management within the system, as less heat needs to be dissipated. It contributes to cooler and quieter operation, as well as improved system longevity by placing less stress on cooling components.

Compatibility with Existing Infrastructure

The 85W power rating ensures compatibility with existing power infrastructure and cooling solutions. It allows the HPE Xeon E5-2620V4 Processor to be seamlessly integrated into systems without requiring significant modifications or upgrades to accommodate higher power demands. This makes it a convenient choice for upgrading existing systems or deploying new systems within established environments.

Flexibility for System Configurations

The 85W power rating provides flexibility for system configurations, particularly in scenarios where power constraints may exist. It allows for the inclusion of multiple processors or other power-hungry components without exceeding the system's power supply capabilities. This flexibility enables users to build high-performance systems tailored to their specific needs without compromising stability or reliability.

Manufacturing Technology

The HPE Xeon E5-2620V4 Processor is manufactured using a 14nm process technology. The manufacturing technology refers to the size of the transistors and other components on the processor chip. A smaller manufacturing technology offers several advantages, including improved performance, energy efficiency, and heat dissipation.

Enhanced Performance and Efficiency

The 14nm manufacturing technology of the HPE Xeon E5-2620V4 Processor allows for the creation of smaller and more efficient transistors. This results in improved performance due to shorter distances for electrical signals to travel, reduced power leakage, and lower power consumption. The smaller transistors also enable higher transistor density, allowing for more processing power within a given chip area.

Reduced Heat Generation

A smaller manufacturing technology leads to reduced heat generation during processor operation. The 14nm manufacturing technology of the HPE Xeon E5-2620V4 Processor allows for better heat dissipation as heat is more efficiently conducted away from the processor die. This contributes to cooler and more stable operation, reducing the risk of thermal throttling and ensuring optimal performance even under demanding workloads.

Lower Power Consumption

A smaller manufacturing technology results in lower power consumption as transistors require less energy to switch states. The 14nm manufacturing technology of the HPE Xeon E5-2620V4 Processor enables energy-efficient operation