709492-B21 HPE Intel Xeon E5 2630 V2 2.6GHz Six Core 15MB L3 Cache 80W

Speed

The HPE Intel Xeon Six Core E5 2630 V2 Processor is equipped with a powerful speed of 2.6GHz. This impressive clock speed allows for fast and efficient processing, making it an ideal choice for users who require high-performance computing capabilities.

Improved Performance

The 2.6GHz speed of the processor ensures that tasks are completed quickly and efficiently. Whether you are running complex applications, performing data analysis, or handling heavy workloads, this processor can handle it all with ease. The increased clock speed allows for faster calculations and smoother multitasking, resulting in improved overall performance.

Enhanced Productivity

With a faster speed, users can experience enhanced productivity. The processor can handle demanding tasks effortlessly, reducing processing time and enabling users to accomplish more in less time. This is particularly beneficial for professionals in industries such as design, video editing, and scientific research, where time is of the essence.

Seamless Multitasking

The 2.6GHz speed ensures seamless multitasking capabilities. Users can run multiple applications simultaneously without experiencing lag or slowdowns. This is crucial for individuals who rely on their computers to handle multiple tasks at once, such as content creators who need to edit videos while running editing software and browsing the web.

Efficient Resource Management

The high clock speed allows the processor to efficiently manage system resources. It ensures that each task receives the necessary processing power, preventing bottlenecks and ensuring smooth operation. This efficiency translates into improved overall system performance and a more responsive user experience.

Reduced Waiting Time

With the 2.6GHz speed, users can enjoy reduced waiting time when executing commands or loading applications. The processor can quickly execute instructions, minimizing delays and providing a seamless user experience. This is particularly beneficial in scenarios where time-sensitive operations are critical, such as financial transactions or real-time data analysis.

Optimized Gaming Experience

Gamers can also benefit from the 2.6GHz speed of this processor. The high clock speed ensures smooth gameplay with minimal lag, allowing for an immersive gaming experience. Whether you are playing graphically demanding games or engaging in intense multiplayer battles, this processor can handle the load, resulting in a smoother and more enjoyable gaming session.

Future-Proof Performance

The 2.6GHz speed of the HPE Intel Xeon Six Core E5 2630 V2 Processor ensures future-proof performance. As software and applications become more resource-intensive, having a processor with a high clock speed will help ensure compatibility and optimal performance for years to come. Investing in a processor that can handle future advancements is essential for staying ahead in today's rapidly evolving digital landscape.

Cache

The HPE Intel Xeon Six Core E5 2630 V2 Processor features an impressive 15MB L3 cache. This large cache size plays a crucial role in enhancing performance and improving overall system efficiency.

Accelerated Data Access

The generous 15MB L3 cache allows for accelerated data access. The processor stores frequently accessed data closer to the cores, reducing the time required to fetch information from the main memory. This results in faster execution of commands and improved overall system responsiveness.

Reduced Memory Latency

The large cache size helps reduce memory latency. By storing frequently accessed data in the cache, the processor eliminates the need to fetch information from slower main memory, significantly reducing the time it takes to access data. This reduction in memory latency translates into faster application performance and smoother multitasking capabilities.

Improved Workload Management

The 15MB L3 cache enables efficient workload management. When multiple applications are running simultaneously, the cache can store data from different tasks, allowing for smoother context switching and minimizing the need to retrieve data from the main memory. This efficient workload management ensures that each task receives the necessary resources without causing performance bottlenecks.

Enhanced Virtualization Performance

Virtualization relies heavily on efficient data access and management. The large cache size of the HPE Intel Xeon Six Core E5 2630 V2 Processor improves virtualization performance by providing faster access to frequently used data, reducing latency, and improving overall system efficiency. This is particularly beneficial for businesses or individuals who rely on virtualization for running multiple operating systems or hosting virtual machines.

Optimized Data-Intensive Applications

Data-intensive applications, such as database management systems or scientific simulations, can benefit greatly from the 15MB L3 cache. These applications often require frequent access to large amounts of data, and the large cache size ensures that critical information is readily available, reducing processing time and improving overall application performance.

Seamless Streaming and Content Creation

Content creators who work with high-resolution videos or large media files can take advantage of the 15MB L3 cache. The cache allows for faster access to media assets, reducing rendering and processing time. This results in seamless streaming experiences, smoother video editing workflows, and improved overall productivity for content creators.

Efficient Resource Utilization

The large cache size contributes to efficient resource utilization. By storing frequently accessed data closer to the cores, the processor minimizes data transfer between the cache and the main memory. This efficient utilization of system resources translates into improved overall performance and a more responsive computing experience.

Qpi Speed

The HPE Intel Xeon Six Core E5 2630 V2 Processor boasts a QPI (QuickPath Interconnect) speed of 7.2GT/s. This high-speed interconnect technology plays a crucial role in facilitating fast and efficient communication between the processor and other components, ensuring optimal system performance.

Rapid Data Transfer

The 7.2GT/s QPI speed allows for rapid data transfer between the processor and other components, such as memory modules or peripheral devices. This high-speed interconnect ensures that data can be quickly exchanged, reducing latency and improving overall system responsiveness.

Enhanced Scalability

QPI technology enables enhanced scalability by providing a high-bandwidth interconnect between multiple processors in a multi-socket system. The 7.2GT/s QPI speed ensures efficient communication between processors, allowing them to work together seamlessly and share resources effectively. This scalability is particularly beneficial for users who require high-performance computing capabilities or run resource-intensive applications.

Improved System Performance

The high-speed QPI technology contributes to improved system performance by minimizing bottlenecks and ensuring efficient data transfer. Whether you are running demanding applications, performing complex calculations, or handling large datasets, the 7.2GT/s QPI speed helps ensure that the processor can communicate with other components at optimal speeds, maximizing overall system performance.

Optimized Server Workloads

Servers often handle multiple concurrent requests and rely on efficient communication between components to deliver fast and reliable services. The 7.2GT/s QPI speed of the HPE Intel Xeon Six Core E5 2630 V2 Processor allows servers to handle heavy workloads efficiently, ensuring smooth operations and minimizing response times.

Seamless High-Performance Computing

High-performance computing (HPC) applications require fast and efficient communication between processors and other components. The 7.2GT/s QPI speed ensures seamless HPC experiences by enabling quick data exchange, reducing latency, and improving overall system efficiency. This is particularly beneficial for researchers, scientists, or engineers who rely on HPC for simulations, data analysis, or modeling.

Efficient Data Center Operations

Data centers demand efficient communication between servers and network infrastructure. The high-speed QPI technology of the HPE Intel Xeon Six Core E5 2630 V2 Processor ensures smooth data center operations by enabling fast data transfer and minimizing network latency. This enhances the reliability and performance of mission-critical applications hosted in the data center environment.

Reduced Overhead for Inter-Processor Communication

In multi-processor systems, efficient inter-processor communication is key to achieving optimal performance. The 7.2GT/s QPI speed reduces overhead for inter-processor communication by providing a high-bandwidth interconnect. This results in improved scalability, reduced latency, and enhanced overall system efficiency.

Socket

The HPE Intel Xeon Six Core E5 2630 V2 Processor utilizes the FCLGA 2011 socket. This socket type provides a secure and reliable connection between the processor and the motherboard, ensuring compatibility and optimal performance.

Secure Connection

The FCLGA 2011 socket ensures a secure connection between the processor and the motherboard. The socket design provides a tight fit, preventing any potential disconnections or loose connections that could result in system instability or performance issues. This secure connection is essential for maintaining a reliable computing environment.

Compatibility

The FCLGA 2011 socket is compatible with a wide range of motherboards. This ensures that the HPE Intel Xeon Six Core E5 2630 V2 Processor can be easily integrated into various computer systems without the need for additional hardware upgrades. The compatibility of the socket simplifies the upgrade process and allows users to take advantage of the processor's advanced features without any compatibility issues.

Optimal Performance

The FCLGA 2011 socket ensures optimal performance by providing a direct and efficient connection between the processor and the motherboard. The socket design minimizes signal loss and interference, maximizing data transfer rates and overall system performance. This optimal performance is crucial for users who require high-performance computing capabilities or run resource-intensive applications.

Future-Proofing

The FCLGA 2011 socket allows for future-proofing your system. As new processors are released in the future, you can easily upgrade to newer models that utilize the same socket type, without the need to replace the entire motherboard. This flexibility ensures that your system can adapt to future advancements in processor technology, extending its lifespan and providing continued performance improvements.

Reliable Infrastructure

The secure connection provided by the FCLGA 2011 socket ensures a reliable infrastructure. Whether you are using the processor for personal use or within a business environment, a stable and dependable system is essential. The socket's design prevents accidental disconnections or interruptions, minimizing downtime and maintaining a stable computing environment.

Efficient Cooling Solutions

The FCLGA 2011 socket allows for efficient cooling solutions. The socket design allows for easy installation of cooling systems, such as heatsinks or liquid cooling solutions, ensuring optimal thermal management. Efficient cooling is crucial for maintaining the longevity and performance of the processor, especially during prolonged or intense computing tasks.

Scalability

The FCLGA 2011 socket enables scalability by supporting multi-socket configurations. This means that users can install multiple processors in a single system, allowing for increased processing power and improved performance. Scalability is particularly beneficial for users who require high-performance computing capabilities or run resource-intensive applications.

Nm

The HPE Intel Xeon Six Core E5 2630 V2 Processor is built using a 22nm manufacturing process. This advanced manufacturing technology offers several benefits in terms of performance, power efficiency, and overall system reliability.

Improved Performance

The 22nm manufacturing process allows for the creation of smaller transistors, resulting in improved performance. Smaller transistors offer faster switching times, allowing for faster data processing and improved overall system responsiveness. The improved performance is particularly beneficial for users who require high-performance computing capabilities or run resource-intensive applications.

Power Efficiency

The 22nm manufacturing process contributes to increased power efficiency. Smaller transistors require less power to operate, reducing energy consumption and heat generation. This not only results in lower electricity bills but also helps to create a more environmentally friendly computing environment by reducing carbon emissions and overall power consumption.

Heat Dissipation

The smaller transistors produced by the 22nm manufacturing process generate less heat compared to larger transistors. This allows for more efficient heat dissipation, reducing the strain on cooling systems and ensuring optimal thermal management. Effective heat dissipation is crucial for maintaining the longevity and performance of the processor, especially during prolonged or intense computing tasks.

Overclocking Potential

The 22nm manufacturing process enhances the overclocking potential of the processor. Overclocking refers to running the processor at a higher clock speed than its default setting. The smaller transistors and improved power efficiency of the HPE Intel Xeon Six Core E5 2630 V2 Processor enable better heat dissipation during overclocking, allowing users to push the processor beyond its default clock speed for increased performance when needed.

Reliability

The 22nm manufacturing process contributes to the overall reliability of the processor. Smaller transistors are less prone to defects, resulting in a more reliable and stable computing environment. The reliability of the processor is essential, especially for businesses or individuals who rely on their computers for critical operations or handling sensitive data.

Future-Proofing

The 22nm manufacturing process ensures future-proofing by incorporating advanced technology. As new processors are released with even smaller transistor sizes, systems built with the HPE Intel Xeon Six Core E5 2630 V2 Processor can be easily upgraded to newer models without needing to replace the entire system. This scalability and adaptability ensure that your system can keep up with future advancements in processor technology, extending its lifespan and providing continued performance improvements.

Compatibility

The HPE Intel Xeon Six Core E5 2630 V2 Processor's 22nm manufacturing process ensures compatibility with a wide range of motherboards and system configurations. This compatibility allows users to seamlessly integrate the processor into their existing systems without requiring significant hardware upgrades. The ability to upgrade or replace processors without extensive system modifications simplifies the upgrade process and ensures compatibility with other components.

Power

The HPE Intel Xeon Six Core E5 2630 V2 Processor operates at a power level of 80W. This power efficiency is a key consideration for users who prioritize energy savings and environmental sustainability without compromising on performance.

Energy Savings

The 80W power consumption of the processor translates into significant energy savings compared to higher power-consuming alternatives. Lower power consumption means reduced electricity bills, making this processor an ideal choice for individuals or businesses looking to minimize their energy costs. By opting for a more power-efficient processor, users can contribute to a greener and more sustainable computing environment.

Environmental Impact

The 80W power consumption of the HPE Intel Xeon Six Core E5 2630 V2 Processor helps reduce the environmental impact of computing activities. Lower power consumption results in reduced carbon emissions, helping to mitigate the effects of climate change. By choosing a processor with lower power requirements, users are actively contributing to a greener future.

Cooling Requirements

The 80W power consumption also has implications for cooling requirements. The lower power consumption generates less heat, reducing the strain on cooling systems. This allows for more efficient cooling solutions, such as fans or liquid cooling, resulting in quieter and more energy-efficient operation. Efficient cooling is essential for maintaining optimal performance and extending the lifespan of the processor.

Optimal Performance-to-Power Ratio

The HPE Intel Xeon Six Core E5 2630 V2 Processor strikes a balance between performance and power consumption. The 80W power level ensures that the processor operates at an optimal performance-to-power ratio, delivering excellent computing capabilities while minimizing energy requirements. This makes it an ideal choice for users who require high-performance computing without excessive power consumption.

Reliable Operation

The power efficiency of the processor contributes to its overall reliability. By operating at a lower power level, the processor generates less heat, reducing the risk of overhe