Intel Xeon E5-2683V4 16-Core 2.1GHz Processor BX80660E52683V4

Core Count: 16

The Intel Xeon E5-2683V4 Processor is equipped with an impressive 16 cores. This high core count provides exceptional performance and multitasking capabilities, making it an ideal choice for demanding workloads and applications.

Improved Performance

With 16 cores, the processor can handle a significantly higher number of tasks simultaneously. This means faster data processing, improved system responsiveness, and reduced latency. Whether you're running complex simulations or handling heavy workloads, the E5-2683V4 Processor's core count ensures smooth and efficient performance.

Enhanced Multitasking

The high core count enables seamless multitasking, allowing you to run multiple applications simultaneously without experiencing any lag or performance issues. This is particularly beneficial for professionals who need to work with resource-intensive software or run virtual machines.

Ideal for Server Applications

The Intel Xeon E5-2683V4 Processor's 16 cores make it an excellent choice for server applications. With more cores, the processor can handle a higher number of concurrent requests, ensuring optimal performance even during peak usage periods. This means improved server response times, reduced downtime, and enhanced user experience.

Future-Proofing

The increasing demand for computing power necessitates processors with higher core counts. By choosing a processor with 16 cores like the E5-2683V4, you are future-proofing your system. As software and applications become more advanced and demanding, your processor's core count will ensure that your system remains capable of handling the latest technologies.

Base Clock Speed: 2.1GHz

The Intel Xeon E5-2683V4 Processor boasts a base clock speed of 2.1GHz. This base clock speed plays a crucial role in determining the processor's overall performance and responsiveness.

Efficient Task Execution

A higher base clock speed means that the processor can execute instructions more quickly. This translates to faster application launch times, smoother multitasking, and improved overall system responsiveness. Whether you're working on complex calculations or running resource-intensive applications, the E5-2683V4 Processor's base clock speed ensures efficient task execution.

Boosting Performance

The base clock speed serves as a foundation for the processor's performance. While modern processors often incorporate dynamic frequency scaling technologies to adjust their clock speeds based on workload, the higher base clock speed of the E5-2683V4 Processor provides a solid starting point for achieving optimal performance. It sets a higher baseline for your system's capabilities.

Optimized for Single-Threaded Applications

Many applications, especially older ones or those that aren't designed to fully utilize multiple cores, rely heavily on single-threaded performance. The higher base clock speed of the E5-2683V4 Processor ensures that these applications run smoothly and swiftly, providing an excellent user experience.

Energy Efficiency

The E5-2683V4 Processor's 2.1GHz base clock speed strikes a balance between performance and power consumption. It allows for efficient task execution without excessive energy usage, ensuring that your system remains cool and power-efficient.

L3 Cache: 40MB

The Intel Xeon E5-2683V4 Processor features a generous L3 cache size of 40MB. The L3 cache plays a vital role in improving performance by reducing memory latency and enhancing data retrieval capabilities.

Reduced Memory Latency

The L3 cache serves as a middle ground between the processor cores and the main memory. It stores frequently accessed data, allowing the processor to retrieve it quickly without having to access the relatively slower main memory. With a larger L3 cache, like the 40MB in the E5-2683V4, the processor can store and retrieve more data, reducing memory latency and improving overall performance.

Faster Data Retrieval

The larger L3 cache size enables faster data retrieval, especially for applications that require frequent access to large datasets. By storing more data closer to the processor cores, the E5-2683V4 Processor minimizes the time required to retrieve information from the main memory, resulting in improved application responsiveness and reduced wait times.

Enhanced Multitasking Performance

With a larger L3 cache, the processor can store more data from multiple threads, improving multitasking performance. This allows for smoother and more efficient task-switching, enabling you to run multiple applications simultaneously without experiencing significant performance degradation.

Improved Gaming Experience

The E5-2683V4 Processor's generous L3 cache size has benefits beyond professional applications. For gamers, a larger cache can lead to improved gaming performance by reducing load times, enhancing texture streaming, and minimizing stuttering. Games that rely heavily on caching mechanisms can take full advantage of the 40MB L3 cache.

QPI Speed: 9.6GT/s

The Intel Xeon E5-2683V4 Processor boasts a QPI (QuickPath Interconnect) speed of 9.6GT/s. The QPI speed plays a crucial role in determining how quickly data can be transferred between the processor and other components, such as memory and peripherals.

High-Speed Data Transfer

A higher QPI speed allows for faster data transfer between the processor and other components, such as memory modules or storage devices. This results in reduced data access latency, improved overall system performance, and enhanced responsiveness. With a QPI speed of 9.6GT/s, the E5-2683V4 Processor ensures efficient data communication within your system.

Optimized for Multi-Socket Configurations

The QPI speed becomes increasingly important in multi-socket configurations where multiple processors are used in a single system. In such setups, efficient interprocessor communication is crucial for maintaining system stability and performance. The E5-2683V4 Processor's high QPI speed ensures smooth data exchange between processors, enabling efficient collaboration and workload distribution.

Scalability and Expandability

A high QPI speed is essential for scalable systems that require the ability to expand and add additional components. The 9.6GT/s QPI speed of the E5-2683V4 Processor allows for seamless integration of additional processors, memory modules, or expansion cards, ensuring that your system can grow with your needs without sacrificing performance.

Improved Virtualization Performance

Virtualization relies heavily on efficient data transfer between the processor and virtual machines. By providing a high QPI speed, the E5-2683V4 Processor improves virtualization performance by minimizing data transfer bottlenecks and ensuring smooth operation of virtualized environments.

Socket Type: FCLGA2011

The Intel Xeon E5-2683V4 Processor is designed to be compatible with the FCLGA2011 socket type. The socket type determines the physical connection between the processor and the motherboard, and the FCLGA2011 socket offers several benefits.

Wide Range of Motherboard Options

The FCLGA2011 socket type is widely supported by various motherboard manufacturers, ensuring a wide range of options when choosing a compatible motherboard for your system. Whether you need a workstation-class board or a server-grade solution, you can find a motherboard that meets your specific requirements while supporting the E5-2683V4 Processor.

Scalability and Future-Proofing

The FCLGA2011 socket type is designed to support high-performance processors like the E5-2683V4. This socket type allows for scalability and future-proofing, as it offers compatibility with other powerful processors in the Intel Xeon E5 family. This means that you can upgrade your system in the future without needing to replace the motherboard.

Robust Design and Durability

The FCLGA2011 socket type features a robust design that ensures a secure and reliable connection between the processor and motherboard. This socket type uses an LGA (Land Grid Array) design, which provides improved thermal characteristics and better resistance to physical stress compared to other socket types.

ECC Memory Support

Many motherboards that support the FCLGA2011 socket type also offer support for ECC (Error-Correcting Code) memory. ECC memory can detect and correct single-bit errors, providing improved data integrity and system stability. This is particularly important for critical applications where data accuracy is crucial.

Power Consumption: 120W

The Intel Xeon E5-2683V4 Processor has a power consumption rating of 120W. Power consumption is an essential consideration when choosing a processor as it determines the amount of energy required to operate the system.

Energy Efficiency

Despite its high performance, the E5-2683V4 Processor is designed with energy efficiency in mind. The 120W power consumption ensures that the processor operates optimally without excessive energy usage. This results in lower electricity costs and a reduced environmental footprint.

Cooler Operation

The E5-2683V4 Processor's power consumption of 120W contributes to its ability to operate at lower temperatures. This reduces the strain on cooling systems, ensuring that your system remains cool and stable even under heavy workloads. Additionally, cooler operation can prolong the lifespan of other system components, such as memory modules and storage devices.

Compatibility with Existing Power Infrastructure

With a power consumption rating of 120W, the E5-2683V4 Processor is compatible with standard power supplies commonly found in desktops, workstations, and servers. This means that you can upgrade your system without requiring any additional modifications to your existing power infrastructure.

Manufacturing Technology: 14nm

The Intel Xeon E5-2683V4 Processor is built using a 14nm manufacturing technology. The manufacturing technology has a significant impact on the processor's performance, power efficiency, and overall capabilities.

Improved Performance

The 14nm manufacturing technology allows for more transistors to be packed into a smaller space compared to previous generations. This increased transistor density results in improved performance and higher clock speeds. With more transistors available, the processor can handle more complex calculations and instructions simultaneously, leading to enhanced overall performance.

Power Efficiency

The smaller transistor size achieved through the 14nm manufacturing technology enables the processor to operate at lower voltages, reducing power consumption and heat generation. This translates into improved power efficiency, allowing for longer battery life in mobile devices and lower electricity costs for desktop and server systems.

Heat Dissipation

The 14nm manufacturing technology also benefits heat dissipation. The smaller transistors produce less heat compared to larger ones, resulting in a cooler operating temperature for the processor. This allows for more efficient cooling solutions and reduces the risk of thermal throttling, ensuring sustained performance under heavy workloads.

Future-Proofing

Choosing a processor built using the 14nm manufacturing technology future-proofs your system to some extent. As software and applications continue to evolve, processors with smaller transistor sizes will be better equipped to handle the demands of future technologies. The E5-2683V4 Processor's 14nm manufacturing technology ensures that your system remains capable of handling upcoming advancements in computing.