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

Core Count: 10

The Intel Xeon E5-2630V4 Processor is equipped with an impressive 10 cores, making it a powerful choice for demanding applications and workloads. The core count refers to the number of independent processing units within the processor, and a higher core count generally results in improved multitasking capabilities and overall performance.

Improved Multitasking

With 10 cores, the Intel Xeon E5-2630V4 Processor allows users to efficiently handle multiple tasks simultaneously. This is particularly beneficial for professionals working with resource-intensive applications such as video editing, 3D rendering, and virtualization. The increased core count ensures smooth multitasking without sacrificing performance or experiencing lag.

Enhanced Performance

The higher core count of the Intel Xeon E5-2630V4 Processor translates to improved performance across a wide range of applications. Each core can handle individual threads, allowing for efficient processing of complex calculations. This makes the processor ideal for tasks that require substantial computational power, such as scientific simulations or data analysis.

Optimized Virtualization

Virtualization technology enables users to run multiple operating systems or applications simultaneously on a single machine. The 10 cores of the Intel Xeon E5-2630V4 Processor enable efficient virtualization by allocating dedicated processing power to each virtual machine. This ensures smooth operation and minimizes performance bottlenecks, making it an excellent choice for virtualization environments.

Base Clock Speed: 2.2GHz

The base clock speed refers to the speed at which the processor operates when running at its default settings. In the case of the Intel Xeon E5-2630V4 Processor, the base clock speed is set at 2.2GHz. This speed determines the basic performance level of the processor and affects its overall capabilities.

Efficient Task Execution

With a base clock speed of 2.2GHz, the Intel Xeon E5-2630V4 Processor ensures efficient task execution. The processor can quickly complete instructions and calculations, allowing for smooth operation even when handling complex tasks. This makes it suitable for resource-intensive applications that require fast and reliable processing power.

Improved Responsiveness

The higher the base clock speed, the more responsive the processor will be in executing commands. A 2.2GHz base clock speed enables near-instantaneous response times, minimizing any delays or lags during operation. This is beneficial for tasks that require real-time processing, such as gaming or live streaming.

Overclocking Potential

The base clock speed provides a solid foundation for overclocking, which is the process of increasing the processor's clock speed beyond its default setting. With a base clock speed of 2.2GHz, the Intel Xeon E5-2630V4 Processor offers overclocking enthusiasts ample headroom to push their system's performance even further. Overclocking can result in significant performance gains, particularly in tasks that heavily rely on CPU power.

L3 Cache: 25MB

The L3 cache is a type of high-speed memory located on the processor chip. It acts as a temporary storage for frequently accessed data, reducing the time it takes for the processor to retrieve information from the main memory. The Intel Xeon E5-2630V4 Processor boasts an impressive L3 cache size of 25MB.

Faster Data Access

A larger L3 cache allows the processor to store more data closer to the cores, resulting in faster access times. With a 25MB L3 cache, the Intel Xeon E5-2630V4 Processor can quickly retrieve frequently used data, providing a significant performance boost. This is particularly beneficial for tasks that involve frequent data access, such as gaming or database management.

Improved Efficiency

The larger the L3 cache, the more efficiently the processor can handle data. By reducing the time spent waiting for data to be fetched from the main memory, the Intel Xeon E5-2630V4 Processor can process instructions more quickly and efficiently. This increased efficiency translates into improved overall system performance and responsiveness.

Enhanced Multithreaded Performance

The generous 25MB L3 cache size of the Intel Xeon E5-2630V4 Processor benefits multithreaded performance. Multithreading allows for simultaneous execution of multiple threads, and a larger L3 cache enables better thread management. With more space to store thread-specific data, the processor can efficiently handle complex multitasking scenarios without sacrificing performance.

QPI Speed: 8GT/s

The QPI (QuickPath Interconnect) speed refers to the speed at which the processor communicates with other system components, such as memory and peripherals. A higher QPI speed results in faster data transfer and improved overall system performance. The Intel Xeon E5-2630V4 Processor features a QPI speed of 8GT/s.

Rapid Data Transfer

With an 8GT/s QPI speed, the Intel Xeon E5-2630V4 Processor ensures rapid data transfer between the processor and other system components. This is particularly beneficial for tasks that involve frequent data exchange, such as multimedia editing or data-intensive applications. The faster data transfer speeds enable smoother operation and reduced latency.

Improved System Responsiveness

A higher QPI speed translates into improved system responsiveness, as data can be quickly transferred between the processor and other components. This results in reduced waiting times and improved overall performance. Users will experience snappy system operation, whether they are running resource-intensive applications or performing everyday tasks.

Efficient Workload Distribution

A faster QPI speed allows for more efficient workload distribution across multiple processors or cores. The Intel Xeon E5-2630V4 Processor can quickly exchange data with other processors within a system, enabling efficient parallel processing. This is particularly important in server environments or high-performance computing scenarios, where multiple processors work together to handle massive workloads.

Socket Type: FCLGA2011

The socket type refers to the physical interface between the processor and the motherboard. The Intel Xeon E5-2630V4 Processor utilizes the FCLGA2011 socket type, which ensures compatibility with motherboards designed for this specific socket.

Widespread Compatibility

The FCLGA2011 socket type is widely supported by various motherboard manufacturers, ensuring compatibility with a broad range of systems. This provides users with flexibility when choosing a motherboard for their system build or upgrade. Whether it's for a workstation, server, or gaming rig, the Intel Xeon E5-2630V4 Processor can easily fit into compatible motherboard options.

Future Expansion Options

By utilizing a popular socket type like FCLGA2011, users can take advantage of future motherboard upgrades without needing to replace the entire system. As new motherboards with enhanced features or improved technologies become available, owners of the Intel Xeon E5-2630V4 Processor can simply swap out the motherboard while retaining the processor. This allows for cost-effective system upgrades and future-proofing.

Server-Class Reliability

FCLGA2011 is commonly used in server-class systems, known for their robustness and reliability. By utilizing this socket type, the Intel Xeon E5-2630V4 Processor ensures compatibility with server-grade motherboards. This makes it an excellent choice for users who require a stable and dependable system, such as businesses running critical applications or hosting websites.

Power Consumption: 85W

Power consumption refers to the amount of electrical power a processor requires to operate under typical conditions. The Intel Xeon E5-2630V4 Processor boasts an energy-efficient design with a power consumption of 85W, striking a balance between performance and power efficiency.

Energy Efficiency

The 85W power consumption of the Intel Xeon E5-2630V4 Processor ensures energy-efficient operation without compromising performance. This is particularly important for users concerned about reducing their carbon footprint or minimizing electricity costs. The lower power consumption translates into less heat generation, contributing to overall system stability and reliability.

Cooler Operation

A processor with lower power consumption tends to generate less heat during operation. This results in cooler overall system temperatures and reduces the need for excessive cooling solutions. The Intel Xeon E5-2630V4 Processor's 85W power consumption ensures efficient heat dissipation, allowing for quieter operation and potentially extending the lifespan of other system components.

Compatibility with Low-Power Systems

The 85W power consumption makes the Intel Xeon E5-2630V4 Processor compatible with systems designed for low-power operation. This is particularly useful in environments where power efficiency is a priority, such as data centers or small office setups. The processor's low power requirements enable users to build systems that are both energy-efficient and high-performing.

Manufacturing Technology: 14nm

The manufacturing technology refers to the size of the transistors used to build the processor. A smaller manufacturing technology allows for more transistors to be packed into a smaller space, resulting in improved performance and energy efficiency. The Intel Xeon E5-2630V4 Processor is manufactured using a cutting-edge 14nm process.

Increased Performance

The 14nm manufacturing technology of the Intel Xeon E5-2630V4 Processor enables the integration of more transistors onto the same chip size compared to larger manufacturing processes. This results in increased processing power and improved performance. Applications that require significant computational power, such as video editing or scientific simulations, will benefit from the processor's enhanced performance capabilities.

Improved Energy Efficiency

A smaller manufacturing technology allows for more efficient use of electrical power within the processor. The Intel Xeon E5-2630V4 Processor's 14nm process enables it to operate with greater energy efficiency compared to processors manufactured using larger node sizes. This not only reduces power consumption but also contributes to cooler operation and longer battery life in mobile devices.

Future-Proofing

By utilizing a cutting-edge 14nm manufacturing technology, the Intel Xeon E5-2630V4 Processor ensures compatibility with future software and hardware advancements. As technology continues to evolve, software developers and hardware manufacturers are likely to optimize their products for processors built on smaller node sizes. This means that users can expect better support and performance in the future, providing a degree of future-proofing for their system builds.