Intel Xeon E5-2695V4 BX80660E52695V4 18-Core Processor

Core Count: 18

Improved Multitasking and Performance

The Intel Xeon E5-2695V4 Processor is equipped with an impressive core count of 18, making it ideal for users who require high-performance computing and multitasking capabilities. With more cores, the processor can handle multiple tasks simultaneously, allowing for improved overall system performance and responsiveness. Whether you are running resource-intensive applications, virtualization software, or performing complex data analysis, the 18 cores ensure that your system can handle the workload efficiently.

Enhanced Parallel Processing

Parallel processing is a key advantage of having multiple cores in a processor. Each core can execute its own set of instructions independently, allowing for simultaneous execution of multiple tasks. This improves the efficiency of CPU utilization and enables faster processing of tasks that can be divided into smaller sub-tasks. Whether you are rendering high-resolution graphics, running simulations, or performing scientific calculations, the 18 cores of the Intel Xeon E5-2695V4 Processor ensure that your system can handle complex computations with ease.

Optimized Server Performance

In server environments, where multiple users or processes are accessing the system simultaneously, having a high core count is crucial for maintaining smooth performance. With 18 cores, the Intel Xeon E5-2695V4 Processor can handle a large number of concurrent requests without experiencing significant slowdowns. This ensures that your server can deliver fast response times to users and maintain high availability for critical applications.

Efficient Virtualization

Virtualization has become an essential technology for businesses, enabling them to maximize server resources and consolidate workloads. With its 18 cores, the Intel Xeon E5-2695V4 Processor offers excellent virtualization performance. It can efficiently handle multiple virtual machines running on a single server, allowing for greater consolidation and cost savings. Whether you are running a small-scale virtualization environment or managing a large data center, the high core count of this processor ensures smooth virtual machine performance.

Base Clock Speed: 2.10GHz

Responsive System Performance

The base clock speed of a processor determines the frequency at which it operates under normal conditions. The Intel Xeon E5-2695V4 Processor boasts a base clock speed of 2.10GHz, providing a solid foundation for responsive system performance. With this clock speed, the processor can handle everyday tasks efficiently, ensuring smooth operation even under moderate workloads.

Quick Execution of Single-threaded Applications

While many applications can take advantage of multiple cores, certain tasks still rely heavily on single-threaded performance. The base clock speed plays a crucial role in the execution of these single-threaded applications. With a base clock speed of 2.10GHz, the Intel Xeon E5-2695V4 Processor ensures that such applications can be executed quickly and efficiently.

Boosting Clock Speed with Turbo Boost Technology

In addition to its base clock speed, the Intel Xeon E5-2695V4 Processor features Intel Turbo Boost Technology, which dynamically increases the clock speed when additional processing power is required. This technology enables the processor to reach higher clock speeds, providing a significant boost in performance for demanding tasks. With Turbo Boost Technology, the processor can adapt to workload changes in real-time, delivering optimal performance when you need it most.

Energy Efficiency

The base clock speed also plays a role in determining the power consumption of a processor. Higher clock speeds generally result in increased power consumption. However, with a base clock speed of 2.10GHz, the Intel Xeon E5-2695V4 Processor strikes a balance between performance and energy efficiency. It delivers excellent performance without excessively consuming power, making it a suitable choice for energy-conscious users.

L3 Cache: 45MB

Faster Data Access

The L3 cache is a dedicated memory space integrated into the processor, designed to store frequently accessed data. The Intel Xeon E5-2695V4 Processor features an impressive L3 cache size of 45MB, which enhances data access speeds and reduces latency. With a larger cache, the processor can store more data closer to the cores, reducing the need to access slower main memory. This results in faster data retrieval and improved overall system performance.

Improved Application Performance

Applications that exhibit high memory access patterns can greatly benefit from a larger L3 cache. By storing frequently accessed data in the cache, the Intel Xeon E5-2695V4 Processor minimizes the time required to fetch data from main memory, resulting in improved application performance. Whether you are running complex databases, content management systems, or scientific simulations, the large L3 cache ensures that your applications can access data quickly and efficiently.

Enhanced Virtual Machine Performance

In virtualized environments, where multiple virtual machines share system resources, having a larger L3 cache can significantly improve performance. As each virtual machine accesses its own portion of the cache, a larger cache size allows for more efficient data sharing and reduces contention between virtual machines. This leads to better overall virtual machine performance and responsiveness.

Smooth Gaming Experience

Gamers can also benefit from a larger L3 cache size. Many modern games rely on quick access to large amounts of data, such as textures and game assets. The 45MB L3 cache of the Intel Xeon E5-2695V4 Processor ensures that game data can be stored in cache, minimizing the need to access slower storage devices during gameplay. This results in smoother frame rates, reduced lag, and an overall improved gaming experience.

Qpi Speed: 9.6GT/S

High-Speed Data Transfers

The QPI (QuickPath Interconnect) speed refers to the speed at which data can be transferred between the processor and other system components. The Intel Xeon E5-2695V4 Processor boasts an impressive QPI speed of 9.6GT/s, ensuring fast and efficient communication between the processor and other system elements. This high-speed interconnect allows for rapid data transfers, reducing latency and improving overall system performance.

Improved System Responsiveness

With its high QPI speed, the Intel Xeon E5-2695V4 Processor ensures that data can be quickly exchanged between the processor and memory. This enables faster loading times for applications and reduces processing delays, resulting in improved system responsiveness. Whether you are launching applications, accessing large datasets, or performing real-time data analysis, the high QPI speed of this processor ensures that your system can handle demanding tasks with ease.

Enhanced Multi-Processor Scalability

In multi-processor systems, where multiple processors work together to handle complex workloads, a high QPI speed is crucial for efficient communication between the processors. The 9.6GT/s QPI speed of the Intel Xeon E5-2695V4 Processor enables seamless interconnectivity between multiple processors, allowing them to work in harmony and scale processing power as needed. This is particularly beneficial for server environments that require high-performance computing capabilities.

Accelerated Data-Intensive Workloads

Data-intensive workloads, such as big data analytics or scientific simulations, often involve processing and transferring large amounts of data. The high QPI speed of the Intel Xeon E5-2695V4 Processor ensures that data can be quickly transferred between the processor and storage devices or other components, accelerating data-intensive tasks. This enables faster data processing, reduced time to insights, and improved productivity for users working with large datasets.

Socket Type: FCLGA2011

Compatibility and Upgradeability

The socket type of a processor determines the physical interface between the processor and the motherboard. The Intel Xeon E5-2695V4 Processor utilizes the FCLGA2011 socket type, which offers compatibility with a wide range of server and workstation motherboards. This ensures that users can easily find compatible hardware and upgrade their systems without requiring a complete overhaul.

Scalability and Flexibility

The FCLGA2011 socket type supports multiple generations of processors, allowing for scalability and flexibility in system configurations. Users can start with the Intel Xeon E5-2695V4 Processor and later upgrade to a more powerful processor without needing to change the motherboard. This scalability enables users to adapt their systems to changing requirements and future-proof their investments.

Wide Range of Motherboard Options

The FCLGA2011 socket type is supported by numerous motherboard manufacturers, offering users a wide range of options when choosing a motherboard for their system. Whether you need a server motherboard with multiple expansion slots or a workstation motherboard with advanced graphics capabilities, the FCLGA2011 socket type ensures that you can find a motherboard that meets your specific requirements.

Server-Grade Reliability

The FCLGA2011 socket type is primarily designed for server and workstation environments, where reliability is paramount. The robust design of this socket type ensures secure connections between the processor and the motherboard, minimizing the risk of connectivity issues or damage during operation. This reliability is crucial for mission-critical applications that require 24/7 uptime and data integrity.

Power Consumption: 120W

Efficient Power Utilization

The power consumption of a processor is an important consideration, especially in energy-conscious environments. The Intel Xeon E5-2695V4 Processor has a power consumption of 120W, striking a balance between performance and energy efficiency. This ensures that the processor can deliver excellent performance without excessively consuming power, making it suitable for a wide range of applications.

Reduced Operating Costs

By consuming only 120W of power, the Intel Xeon E5-2695V4 Processor helps reduce operating costs, particularly in large-scale server deployments. Lower power consumption translates into lower electricity bills and reduced cooling requirements, resulting in cost savings over the lifespan of the system. This makes the processor an attractive choice for businesses looking to optimize their IT infrastructure's energy efficiency.

Environmental Impact

Minimizing the environmental impact of computing systems is a growing concern for organizations worldwide. The Intel Xeon E5-2695V4 Processor's power-efficient design contributes to reducing carbon emissions and energy consumption. By choosing a processor with a lower power consumption of 120W, users can play their part in creating a more sustainable future.

Cooling Efficiency

The power consumption of a processor directly affects the amount of heat it generates. With its 120W power consumption, the Intel Xeon E5-2695V4 Processor operates within a manageable thermal envelope. This allows for more efficient cooling solutions, ensuring that the processor remains within safe operating temperatures. Efficient cooling not only prolongs the lifespan of the processor but also reduces the risk of system instability or performance throttling due to overheating.

Manufacturing Technology: 14NM

Improved Performance and Efficiency

The manufacturing technology of a processor refers to the size of its transistors and the overall microarchitecture. The Intel Xeon E5-2695V4 Processor is built using a state-of-the-art 14nm manufacturing process, which offers several benefits in terms of performance and efficiency. The smaller transistor size allows for more transistors to be packed into the same area, resulting in increased processing power and improved energy efficiency.

Higher Clock Speeds

The 14nm manufacturing technology enables higher clock speeds compared to previous generations. With more transistors packed into a smaller area, signal propagation delays are reduced, allowing for faster operation and higher clock frequencies. This translates into improved overall system performance and responsiveness.

Reduced Power Consumption

The 14nm manufacturing process also contributes to improved energy efficiency. The smaller transistor size reduces power leakage and enables better control over power consumption. This results in lower power requirements for the processor, reducing energy costs and heat generation.

Greater Transistor Density

The 14nm manufacturing technology allows for a higher transistor density, meaning more transistors can be integrated into the same physical space. This increased transistor count enables the Intel Xeon E5-2695V4 Processor to perform more calculations per clock cycle, resulting in improved computational performance. Whether you are running complex simulations or performing data-intensive tasks, the greater transistor density enhances your system's capabilities.

Future-Proofing

Investing in a processor built on advanced manufacturing technology is a way to future-proof your system. As technology continues to evolve, software applications and workloads become more demanding. By choosing a processor with a 14nm manufacturing process, you ensure that your system is equipped to handle future advancements in computing without being quickly outdated. This extends the lifespan of your system and provides value for years to come.