HPE Intel Xeon E5-2643v4 6 Core CPU & Processors, 3.4 GHz, 20MB L3 Cache, QPI Speed Socket 825950-B21

Core Count: 6

Improved Performance

The HPE Intel Xeon E5-2643v4 CPU & Processor is equipped with a remarkable core count of 6. This feature plays a crucial role in enhancing the performance of the processor. With more cores, the CPU can handle multiple tasks simultaneously, resulting in improved multitasking capabilities. Whether you are running complex applications, performing heavy data analysis, or virtualizing environments, this processor's 6-core count ensures smooth and efficient performance.

Enhanced Efficiency

The increased core count of the HPE Intel Xeon E5-2643v4 CPU & Processor also leads to enhanced efficiency. Each core can execute its own set of instructions independently, reducing the workload on each core and allowing for faster processing of tasks. This results in quicker response times and reduced latency, enabling users to accomplish their computing tasks more efficiently.

Optimized Workload Distribution

The 6-core count of this processor enables efficient workload distribution across multiple cores. Complex tasks can be divided and assigned to different cores, ensuring that each core is utilized effectively. This not only accelerates processing but also prevents bottlenecks and improves overall system performance. Users can experience seamless multitasking and smoother execution of resource-intensive applications without any lag or slowdowns.

Scalability and Future-proofing

Having 6 cores provides scalability and future-proofing for users. As technology advances and software becomes more demanding, having a higher core count becomes increasingly important. With 6 cores, this processor can handle the demands of today's applications and ensure compatibility with future software updates. Users can invest in this processor with confidence, knowing that it will continue to deliver exceptional performance even as their computing needs evolve.

High Performance Computing

The 6-core count of the HPE Intel Xeon E5-2643v4 CPU & Processor makes it ideal for high-performance computing applications. Whether you are involved in scientific research, engineering simulations, or financial modeling, this processor can handle the complex calculations and data processing required. Its multiple cores enable parallel processing, allowing for faster and more accurate results. With this CPU, users can take their high-performance computing to new heights.

Base Clock Speed: 3.4 GHz

Fast and Responsive Performance

The HPE Intel Xeon E5-2643v4 CPU & Processor boasts a base clock speed of 3.4 GHz. This clock speed determines the frequency at which the processor can perform operations per second. With a higher base clock speed, users can experience fast and responsive performance across a wide range of tasks.

Smooth Multitasking

The high base clock speed of this processor ensures smooth multitasking capabilities. Whether you are running multiple applications simultaneously or working on resource-intensive tasks, the CPU's fast clock speed allows for quick execution of instructions. Users can switch between tasks seamlessly without experiencing any lag or slowdowns, enhancing productivity and efficiency.

Efficient Task Execution

The 3.4 GHz base clock speed enables efficient execution of tasks. Each instruction is processed at a rapid rate, resulting in reduced processing times and improved overall system responsiveness. Users can experience snappy performance when launching applications, opening files, or performing data-intensive operations.

Real-time Responsiveness

The high base clock speed of this processor ensures real-time responsiveness in demanding applications. Whether you are engaged in professional video editing, 3D rendering, or gaming, the CPU's fast clock speed allows for smooth and uninterrupted performance. Users can enjoy lag-free experiences and achieve their desired results without any compromises.

Optimized Power Efficiency

Despite its high clock speed, the HPE Intel Xeon E5-2643v4 CPU & Processor maintains optimized power efficiency. The processor intelligently manages power consumption based on workload requirements, ensuring that power is utilized efficiently without compromising performance. Users can enjoy fast and responsive performance while minimizing energy consumption and reducing their environmental footprint.

L3 Cache: 20MB

Improved Data Access

The HPE Intel Xeon E5-2643v4 CPU & Processor features an L3 cache size of 20MB. The L3 cache serves as a high-speed memory storage area that stores frequently accessed data. With a larger L3 cache, the processor can store more data closer to the cores, resulting in faster access times and improved overall system performance.

Reduced Memory Latency

The 20MB L3 cache plays a vital role in reducing memory latency. Instead of fetching data from the main memory, the processor can retrieve frequently accessed data from the cache quickly. This significantly reduces the time it takes to access data, resulting in improved application responsiveness and smoother multitasking.

Efficient Data Sharing

The large L3 cache size allows for efficient data sharing among the processor cores. When multiple cores are accessing the same data, having a larger cache ensures that the data is readily available, eliminating the need for frequent communication with the main memory. This reduces latency and improves overall system efficiency.

Enhanced Performance in Complex Workloads

The 20MB L3 cache size provides a significant performance boost when dealing with complex workloads. Applications that require extensive data processing or large datasets can benefit from the larger cache size. The processor can store more data in the cache, allowing for faster access and processing. Users can experience improved performance and reduced processing times when working with data-intensive applications.

Smooth Virtualization

Virtualization environments can benefit greatly from the large L3 cache size. When running multiple virtual machines simultaneously, the processor can store frequently accessed data from each virtual machine in the cache, improving overall performance and responsiveness. This ensures smooth virtualization experiences with minimal impact on performance.

QPI Speed: Socket

Efficient Data Transfer

The QPI (QuickPath Interconnect) speed of the HPE Intel Xeon E5-2643v4 CPU & Processor is determined by the socket it is installed in. The QPI speed represents the speed at which data is transferred between the processor and other components, such as memory and peripheral devices. This feature plays a crucial role in ensuring efficient data transfer and overall system performance.

High-Speed Communication

The QPI speed determines the bandwidth available for communication between the processor and other components. A higher QPI speed allows for faster data transfer rates, resulting in improved system responsiveness and reduced latency. Users can experience high-speed communication between the CPU and other components, enabling quick access to data and efficient execution of tasks.

Improved System Scalability

The QPI speed also enhances system scalability. With faster data transfer rates, users can add additional components or upgrade existing ones without experiencing performance bottlenecks. The high-speed communication facilitated by the QPI speed ensures that all components can communicate effectively, maximizing system performance regardless of the workload.

Optimized Workload Distribution

Efficient workload distribution is crucial for optimal system performance. The QPI speed ensures that data is transferred quickly and evenly across multiple cores and components, preventing any single component from becoming a bottleneck. This leads to balanced system utilization and improved overall efficiency.

Support for High-Performance Applications

The QPI speed is particularly important for high-performance applications that rely on fast data transfer rates. Whether you are working with large datasets, conducting real-time data analysis, or running resource-intensive applications, a high QPI speed ensures that data can be transferred quickly and efficiently. This enables users to achieve maximum performance and responsiveness in demanding computing tasks.