Intel Xeon E5-2630V4 10-Core 2.2GHz Processor BX80660E52630V4

Core Count: 10

Enhanced Performance and Multitasking

The Intel Xeon E5-2630V4 Processor is equipped with 10 cores, allowing for enhanced performance and multitasking capabilities. With more cores, users can experience improved speed and efficiency when running multiple applications simultaneously.

Increased Processing Power

The 10 cores of the Intel Xeon E5-2630V4 Processor provide users with increased processing power. This means that tasks can be completed more quickly and efficiently, resulting in improved productivity for businesses and individuals alike.

Efficient Virtualization

For users who require virtualization capabilities, the 10 cores of this processor are highly beneficial. Virtual machines can be created and managed with ease, allowing for efficient allocation of resources and improved performance in virtualized environments.

Optimized Workloads

The 10 cores of the Intel Xeon E5-2630V4 Processor enable users to optimize their workloads. This means that specific tasks or applications can be assigned to individual cores, ensuring that each core is utilized to its maximum potential and improving overall system performance.

Seamless Multithreading

With 10 cores, the Intel Xeon E5-2630V4 Processor supports hyper-threading technology, allowing for seamless multithreading. This means that each core can handle multiple threads simultaneously, improving overall system responsiveness and reducing latency.

Enhanced Gaming Experience

Gamers can also benefit from the 10 cores of this processor. With more cores, games can be run at higher settings and resolutions, providing a smoother and more immersive gaming experience.

Base Clock Speed: 2.2GHz

Improved Responsiveness

The Intel Xeon E5-2630V4 Processor features a base clock speed of 2.2GHz, providing users with improved responsiveness. Applications and tasks can launch and execute more quickly, reducing waiting times and improving overall user experience.

Efficient Resource Allocation

The 2.2GHz base clock speed allows for efficient allocation of system resources. With a higher base clock speed, the processor can handle more demanding tasks without sacrificing performance in other areas.

Smooth Multimedia Experience

For users who frequently work with multimedia applications or consume media, the 2.2GHz base clock speed ensures a smooth experience. High-resolution videos can be played back without stuttering or buffering, providing a seamless viewing experience.

Faster Data Transfer

The higher base clock speed of the Intel Xeon E5-2630V4 Processor also enables faster data transfer rates. This is particularly beneficial for users who regularly transfer large files or work with bandwidth-intensive applications.

Responsive Gaming Performance

Gamers can expect improved gaming performance with the 2.2GHz base clock speed. Games can be launched and loaded quickly, and the processor can handle demanding in-game tasks with ease, resulting in a more responsive and enjoyable gaming experience.

Efficient Task Execution

The 2.2GHz base clock speed allows for efficient execution of tasks, ensuring that processes are completed in a timely manner. This is particularly important for users who rely on their system for time-sensitive work or real-time applications.

L3 Cache: 25MB

Accelerated Data Access

The Intel Xeon E5-2630V4 Processor is equipped with a generous 25MB L3 cache, enabling accelerated data access. The L3 cache acts as a high-speed memory buffer, storing frequently accessed data and reducing the time it takes to retrieve information.

Improved Performance and Efficiency

With a larger L3 cache, the processor can store more data closer to the cores, resulting in improved performance and efficiency. This allows for faster execution of tasks and reduced latency.

Seamless Multitasking

The 25MB L3 cache enables seamless multitasking by allowing the processor to quickly access data from various applications simultaneously. This ensures smooth performance even when running multiple resource-intensive tasks.

Enhanced Data-Intensive Workloads

For users who work with data-intensive applications, the 25MB L3 cache is highly beneficial. It enables faster processing and analysis of large datasets, improving overall productivity and reducing time spent waiting for computations to complete.

Efficient Virtualization

In virtualized environments, the 25MB L3 cache helps improve performance by reducing the time it takes to access data from virtual machines. This allows for more efficient allocation of resources and improved responsiveness in virtualized environments.

Improved Gaming Performance

Gamers can also benefit from the 25MB L3 cache. It helps reduce loading times and improves overall game performance, ensuring smooth gameplay even in demanding titles with large amounts of game data.

QPI Speed: 8GT/s

Faster Data Transfer

The Intel Xeon E5-2630V4 Processor features a QPI speed of 8GT/s, enabling faster data transfer between the processor and other system components. This results in improved system performance and reduced latency.

Efficient Communication Between Cores

The 8GT/s QPI speed allows for efficient communication between the processor's cores, ensuring that data is transferred quickly and accurately. This is particularly important for tasks that require collaboration between multiple cores.

Enhanced System Responsiveness

With a higher QPI speed, the Intel Xeon E5-2630V4 Processor provides users with enhanced system responsiveness. Applications launch and execute more quickly, reducing waiting times and improving overall user experience.

Improved Scalability

The 8GT/s QPI speed helps improve scalability in multi-processor systems. It allows for efficient communication between multiple processors, ensuring that system resources are effectively utilized and enabling seamless expansion as workload demands increase.

Optimized Virtualization Performance

In virtualized environments, the 8GT/s QPI speed contributes to improved performance by facilitating faster data transfer between virtual machines and the processor. This results in reduced latency and improved responsiveness in virtualized workloads.

Seamless Gaming Experience

Gamers can expect a seamless gaming experience with the 8GT/s QPI speed. It ensures fast communication between the processor and graphics card, reducing input lag and providing smooth gameplay even in demanding titles.

Socket Type: FCLGA2011

Compatibility and Upgradeability

The Intel Xeon E5-2630V4 Processor features an FCLGA2011 socket type, ensuring compatibility with compatible motherboards. This socket type also allows for easy upgradeability, allowing users to future-proof their systems by upgrading to newer processors when needed.

Wide Range of Motherboard Options

With the FCLGA2011 socket type, users have access to a wide range of motherboard options. This allows for customization based on specific needs and preferences, ensuring that the processor can be paired with a motherboard that meets the requirements of the user's intended use case.

Support for Advanced Features

The FCLGA2011 socket type supports advanced features such as overclocking and multi-GPU setups. This is particularly beneficial for users who require high-performance computing or gaming capabilities.

Scalability and Flexibility

Users can benefit from the scalability and flexibility provided by the FCLGA2011 socket type. It allows for easy expansion and customization based on changing needs, ensuring that the system can adapt to evolving workloads or gaming requirements.

Reliable and Secure Connections

The FCLGA2011 socket type provides reliable and secure connections between the processor and motherboard. This ensures stable performance and reduces the risk of data loss or system instability.

Efficient Cooling Solutions

With the FCLGA2011 socket type, users have access to a wide range of cooling solutions. This allows for efficient heat dissipation, ensuring that the processor operates within safe temperature limits even under heavy workloads or during intense gaming sessions.

Power Consumption: 85W

Energy Efficiency

The Intel Xeon E5-2630V4 Processor boasts a power consumption of 85W, making it an energy-efficient choice for users. The lower power consumption helps reduce electricity costs and minimizes environmental impact.

Cooler Operation

With a lower power consumption, the processor generates less heat during operation. This results in cooler overall system temperatures, which can contribute to improved system stability and longevity.

Reduced Noise Levels

The 85W power consumption of the Intel Xeon E5-2630V4 Processor leads to reduced heat output, which in turn results in lower fan speeds and reduced noise levels. This is particularly beneficial for users who require a quiet working or gaming environment.

Extended Battery Life

For users who rely on mobile devices or laptops powered by this processor, the 85W power consumption helps extend battery life. This allows for longer usage between charges, increasing productivity and convenience.

Sustainable Computing

The energy-efficient nature of the Intel Xeon E5-2630V4 Processor contributes to sustainable computing practices. By reducing power consumption, users can minimize their carbon footprint and promote environmentally friendly computing.

Improved Thermal Management

The lower power consumption of this processor allows for more effective thermal management within the system. Heat can be dissipated more efficiently, ensuring that critical components remain within safe operating temperatures.

Manufacturing Technology: 14NM

Advanced Semiconductor Technology

The Intel Xeon E5-2630V4 Processor is manufactured using a cutting-edge 14nm semiconductor technology. This advanced manufacturing process allows for smaller and more power-efficient transistors, resulting in improved performance and energy efficiency.

Higher Performance per Watt

The 14nm manufacturing technology enables higher performance per watt for the processor. This means that users can enjoy improved performance without sacrificing energy efficiency or increasing power consumption.

Reduced Power Leakage

With the 14nm manufacturing technology, power leakage is minimized. This ensures that power is used efficiently, reducing wasted energy and contributing to the overall energy efficiency of the processor.

Improved Frequency Scaling

The 14nm manufacturing technology allows for improved frequency scaling. This means that the processor can dynamically adjust its clock speed based on workload demands, providing optimal performance while minimizing power consumption.

Enhanced Transistor Density

The 14nm manufacturing technology enables a higher transistor density, allowing for more transistors to be packed into a smaller space. This results in improved performance and efficiency, as more processing power can be accommodated within the same physical footprint.

Reduced Heat Generation

The smaller transistors produced using the 14nm manufacturing technology generate less heat during operation. This contributes to improved thermal management and allows for cooler overall system temperatures.