HPE 826997-B21 Xeon E5-2698V4 20-Core 2.2GHz Processor

Cores: 20

Enhanced Performance and Multitasking Capabilities

The HPE Xeon E5-2698V4 Processor is equipped with an impressive 20 cores, making it a powerhouse in terms of performance and multitasking capabilities. With each core capable of executing multiple threads simultaneously, users can experience enhanced efficiency and productivity. Whether you are running complex calculations, rendering high-resolution graphics, or handling data-intensive tasks, the 20 cores ensure smooth and swift execution.

Improved Workload Distribution

The abundance of cores allows for better workload distribution across different applications and processes. This means that each task can be assigned to a separate core, ensuring that there is no bottleneck or slowdown in performance. Whether you are running resource-intensive applications or handling multiple tasks simultaneously, the 20 cores ensure that your system can handle the load without any compromise in performance.

Seamless Multitasking

With 20 cores at your disposal, multitasking becomes a breeze. You can effortlessly switch between different applications, run virtual machines, and handle demanding workloads without experiencing any lag or slowdown. This level of multitasking capability is particularly beneficial for professionals in fields such as video editing, 3D modeling, scientific research, and virtualization.

Optimized Server Performance

For server applications that require significant processing power, the 20 cores of the HPE Xeon E5-2698V4 Processor ensure optimal performance. Servers hosting virtual machines, databases, or other resource-intensive applications can benefit from the increased core count to handle concurrent tasks efficiently. This translates to improved server responsiveness and reduced latency, enhancing user experience and overall productivity.

Increased Scalability

The 20 cores offer scalability options for future growth and expansion. As your computing needs evolve, you can leverage the additional cores to accommodate more demanding applications and workloads. This scalability ensures that your system remains capable and efficient, even as your requirements increase over time.

Efficient Resource Utilization

By having 20 cores, the HPE Xeon E5-2698V4 Processor allows for efficient resource utilization. Each core can be allocated to handle specific tasks, optimizing the utilization of processing power and minimizing idle resources. This efficient resource management translates to cost savings and improved energy efficiency, making it an ideal choice for businesses that prioritize sustainability and reducing operating costs.

Base Clock Speed: 2.2GHz

Swift and Responsive Performance

The HPE Xeon E5-2698V4 Processor boasts a base clock speed of 2.2GHz, ensuring swift and responsive performance across a wide range of applications. The base clock speed represents the frequency at which the processor operates under normal conditions, providing a solid foundation for processing tasks efficiently.

Quick Execution of Single-Threaded Applications

While having multiple cores is essential for multitasking and parallel processing, single-threaded applications still benefit from a high base clock speed. The 2.2GHz base clock speed enables rapid execution of single-threaded tasks, ensuring smooth performance even when running applications that do not utilize multiple cores effectively.

Seamless Gaming Experience

Gamers can also benefit from the high base clock speed of the HPE Xeon E5-2698V4 Processor. Many games rely heavily on single-threaded performance, and a faster base clock speed ensures smooth gameplay and reduced lag. Whether you are playing graphically demanding AAA titles or competitive online games, the 2.2GHz base clock speed ensures a seamless gaming experience.

Efficient Content Creation and Editing

Content creators and video editors often work with software that requires substantial processing power. The 2.2GHz base clock speed ensures efficient rendering and editing of high-resolution videos, reducing the time required for tasks such as video encoding, effects rendering, and post-production. This allows professionals to work more efficiently and meet tight deadlines without compromising the quality of their work.

Improved Responsiveness in Everyday Tasks

The high base clock speed of 2.2GHz significantly improves the responsiveness of everyday tasks such as web browsing, document editing, and media playback. Whether you are browsing the internet, working on spreadsheets, or streaming media content, the HPE Xeon E5-2698V4 Processor ensures a smooth and snappy user experience.

Optimized System Performance

The 2.2GHz base clock speed plays a crucial role in optimizing the overall performance of your system. It establishes a baseline level of performance that other components can build upon, ensuring that your system operates at its full potential. By providing a solid foundation for processing tasks efficiently, the high base clock speed enhances the performance of both single-threaded and multithreaded applications.

L3 Cache: 50MB

Improved Data Access Speed

The HPE Xeon E5-2698V4 Processor features an impressive L3 cache size of 50MB. The L3 cache acts as a high-speed memory pool that stores frequently accessed data, allowing for faster retrieval and improved overall system performance. With a larger cache size, the processor can access critical data quickly, reducing latency and enhancing responsiveness.

Efficient Data Processing

The large L3 cache size enables the processor to hold a significant amount of data closer to the cores, reducing the need to access slower main memory frequently. This results in more efficient data processing, as the processor can retrieve and manipulate data without experiencing bottlenecks caused by memory latency. Whether you are running complex algorithms, analyzing large datasets, or handling memory-intensive applications, the 50MB L3 cache ensures efficient data processing.

Accelerated Application Performance

Applications that frequently access large datasets, such as database management systems or scientific simulations, can greatly benefit from the 50MB L3 cache. By storing frequently accessed data in the cache, the processor can quickly retrieve and process information, accelerating application performance. This leads to reduced execution times and faster results, allowing users to accomplish tasks more quickly and efficiently.

Seamless Virtualization Performance

Virtualization environments often involve running multiple virtual machines concurrently, each requiring access to system resources. The 50MB L3 cache enhances virtualization performance by providing faster access to shared data between virtual machines. This allows for smoother operation and improved responsiveness, even when running resource-intensive applications within virtualized environments.

Reduced Memory Latency

The larger L3 cache size helps reduce memory latency by storing frequently accessed data closer to the processor cores. This minimizes the time required for the processor to fetch data from main memory, resulting in reduced latency and improved overall system performance. The reduced memory latency translates to faster execution times for applications and a more responsive computing experience.

Enhanced Gaming Experience

Gamers can also benefit from the 50MB L3 cache when playing graphically demanding games. The cache stores frequently accessed game assets, such as textures and models, allowing for quicker loading times and smoother gameplay. This ensures that gamers can enjoy immersive gaming experiences without experiencing stuttering or lag caused by slow data access.

QPI Speed: 9.6GT/s

Faster Data Transfer Between Processors

The HPE Xeon E5-2698V4 Processor features a QPI (QuickPath Interconnect) speed of 9.6GT/s, enabling faster data transfer between processors in multi-socket systems. QPI is a high-speed interface that allows for efficient communication and synchronization between processors, ensuring optimal performance in multi-processor configurations.

Enhanced Scalability in Multi-Processor Systems

For users who require high levels of processing power and scalability, the 9.6GT/s QPI speed is essential. In multi-processor systems, the QPI speed determines the bandwidth available for inter-processor communication. The higher QPI speed allows for faster data transfer, reducing latency and ensuring efficient utilization of processing power across multiple processors.

Improved System Responsiveness

The high QPI speed of 9.6GT/s enhances system responsiveness by minimizing the time required for processors to communicate with each other. This is particularly beneficial in applications that involve parallel processing or distributed computing, where efficient synchronization between processors is crucial. The improved system responsiveness translates to smoother operation and reduced execution times for parallelized tasks.

Optimized Performance in Server Environments

In server environments, where multiple processors work together to handle demanding workloads, the 9.6GT/s QPI speed ensures optimal performance. Servers hosting databases, virtual machines, or high-traffic websites can benefit from the increased bandwidth provided by the high QPI speed. This allows for efficient data transfer and synchronization between processors, resulting in improved server responsiveness and reduced latency.

Seamless Execution of Parallelized Tasks

The high QPI speed enables seamless execution of parallelized tasks in applications such as scientific simulations, data analysis, and computational modeling. By facilitating efficient communication between processors, the 9.6GT/s QPI speed ensures that parallelized tasks can be executed without bottlenecks or slowdowns. This enables users to leverage the full potential of multi-processor systems and accomplish computationally intensive tasks more quickly.

Enhanced Performance in Workstation Environments

Workstations used for tasks such as video editing, 3D rendering, and animation can benefit from the high QPI speed. These applications often require multiple processors to handle the processing demands of complex projects. The 9.6GT/s QPI speed allows for efficient data transfer between processors, ensuring smooth and responsive performance in workstation environments.

Socket Type: FCLGA2011

Compatibility with High-End Motherboards

The HPE Xeon E5-2698V4 Processor utilizes the FCLGA2011 socket type, making it compatible with high-end motherboards that support this socket. FCLGA2011 is a robust and widely supported socket type, ensuring that users have a wide range of motherboard options to choose from for their system configuration.

Support for Multiple Processors

The FCLGA2011 socket type supports multiple processors in a single system, allowing for high levels of processing power and scalability. Users who require substantial computing power can take advantage of multi-processor configurations by utilizing motherboards that support multiple FCLGA2011 sockets. This enables efficient parallel processing and enhanced performance in applications that benefit from distributed computing.

Wide Range of Motherboard Options

The FCLGA2011 socket type has been adopted by various motherboard manufacturers, resulting in a wide range of options available to users. Whether you are building a gaming rig, a high-performance workstation, or a server, you can find a motherboard that suits your specific requirements. The availability of multiple motherboard options ensures flexibility and choice when building your system.

Robust and Reliable Connection

The FCLGA2011 socket type provides a robust and reliable connection between the processor and the motherboard. The land grid array (LGA) design ensures secure contact between the pins on the processor and the socket, minimizing the risk of connectivity issues or damage during installation. This ensures stable and consistent performance, even under heavy workloads or demanding operating conditions.

Efficient Heat Dissipation

The FCLGA2011 socket type allows for efficient heat dissipation from the processor. Motherboards designed for this socket often feature robust cooling solutions, including heat sinks and fan headers, to ensure that the processor operates within optimal temperature ranges. Efficient heat dissipation is crucial for maintaining system stability and prolonging the lifespan of the processor.

Scalable System Configuration

The FCLGA2011 socket type enables scalable system configuration options, making it suitable for both entry-level and high-end systems. Whether you are building a budget-friendly gaming rig or a high-performance server, you can choose a motherboard that supports the FCLGA2011 socket type and configure your system accordingly. This scalability ensures that your system can adapt to your evolving needs and requirements.

Power Consumption: 135W

Efficient Energy Utilization

The HPE Xeon E5-2698V4 Processor operates at a power consumption of 135W, ensuring efficient energy utilization without compromising performance. With increasing concerns about energy efficiency and sustainability, processors with low power consumption are becoming increasingly important.

Reduced Operating Costs

The 135W power consumption of the HPE Xeon E5-2698V4 Processor translates to reduced operating costs for businesses and individuals. Lower power consumption means lower electricity bills, particularly in scenarios where multiple processors are deployed in server environments. By opting for a processor with lower power consumption, users can save on energy costs without sacrificing performance.

Environmentally Friendly Computing

The HPE Xeon E5-2698V4 Processor's low power consumption contributes to a more environmentally friendly computing ecosystem. By minimizing energy consumption, users can reduce their carbon footprint and contribute to sustainable practices. This is particularly important for businesses that prioritize corporate social responsibility and aim to minimize their environmental impact.

Cooler Operation and System Stability

The lower power consumption of 135W results in cooler operation and improved system stability. Excessive heat generation can lead to thermal throttling, reducing the performance and lifespan of the processor. The HPE Xeon E5-2698V4 Processor's efficient energy utilization ensures that heat production is kept to a minimum, promoting stable operation and extending the longevity of the processor.

Enhanced Cooling Efficiency

The lower power consumption of the processor also contributes to improved cooling efficiency. Cooling systems, such as fans and heatsinks, can operate more effectively when dealing with lower heat dissipation levels. This ensures that the processor remains within optimal temperature ranges, preventing overheating and maintaining reliable performance even during prolonged operation.

Reduced Environmental Impact

By opting for a processor with lower power consumption, users can reduce their overall environmental impact. The lower energy demand translates into reduced carbon emissions and resource consumption. This makes the HPE Xeon E5-2698V4 Processor an excellent choice for environmentally conscious individuals and organizations aiming to minimize their ecological footprint.

Manufacturing Technology: 14nm

Enhanced Performance and Efficiency

The HPE Xeon E5-2698V4 Processor is manufactured using cutting-edge 14nm technology, delivering enhanced performance and efficiency compared to previous generations.

Increased Transistor Density

The 14nm manufacturing technology allows for a higher density of transistors within the processor. This increased transistor density enables more processing power to be packed into a smaller area, resulting in improved performance. The higher transistor count allows for more complex calculations to be performed simultaneously, enhancing the overall processing capabilities of the processor.

Improved Energy Efficiency

The 14nm manufacturing process also contributes to improved energy efficiency. The smaller transistor size reduces power leakage and allows for more precise control over power consumption. This results in lower energy requirements for the processor, translating to reduced operating costs and environmental impact.

Lower Heat Generation

The smaller transistor size and improved energy efficiency of the 14nm manufacturing technology contribute to lower heat generation. Heat dissipation is a critical factor in maintaining system stability and preventing thermal throttling. The reduced heat generation of the HPE Xeon E5-2698V4 Processor ensures cooler operation and improved overall system reliability.

Future-Proofing Technology

The 14nm manufacturing technology represents a future-proofing investment for users. As technology evolves, manufacturers are likely to optimize their designs for processors based on this manufacturing process. By choosing a processor with 14nm technology, users can ensure compatibility with future software and hardware advancements, extending the lifespan and usability of their systems.

Performance Boost in Single-Threaded Applications

The smaller transistor size and improved efficiency of the 14nm manufacturing process result in a performance boost for single-threaded applications. The reduced power leakage and increased processing power allow for faster execution of single-threaded tasks, enhancing responsiveness and reducing latency. This ensures that even applications that do not utilize multiple cores effectively can benefit from the improved performance offered by the HPE Xeon E5-2698V4 Processor.

Part Number: 826997-B21

Easy Identification and Compatibility

The HPE Xeon E5-2698V4 Processor is identified by the part number