HPE Amd Epyc 7f72 3.2ghz 24-core 192mb L3 Cache Socket Sp3 - P27258-B21

HPE Amd Epyc 7f72 3.2ghz 24-core 192mb L3 Cache Socket Sp3 7nm 240w Processor - P27258-B21

Clock Speed: 3.2GHz

Enhanced Performance

The HPE Epyc 7f72 Processor is built with a clock speed of 3.2GHz, providing users with enhanced performance capabilities. With higher clock speeds, this processor can execute instructions at a faster rate, resulting in quicker processing times for various tasks. Whether you are running complex simulations, analyzing large datasets, or performing intensive computations, the 3.2GHz clock speed ensures that your operations are executed swiftly and efficiently.

Seamless Multitasking

One of the major benefits of the HPE Epyc 7f72 Processor's 3.2GHz clock speed is its ability to handle multiple tasks simultaneously. This means that you can seamlessly multitask without experiencing significant performance slowdowns. Whether you're running resource-intensive applications or juggling several demanding tasks, the processor's high clock speed ensures smooth operation and minimizes lag, enabling you to maintain productivity and efficiency.

Gaming and Multimedia Experience

For gaming enthusiasts and multimedia creators, the 3.2GHz clock speed of the HPE Epyc 7f72 Processor offers a significant advantage. The processor's high clock speed ensures smooth gameplay and immersive multimedia experiences by delivering fast and responsive performance. Whether you're playing the latest AAA games or editing high-resolution videos, the 3.2GHz clock speed ensures that your system can handle these demanding tasks with ease.

Efficient Software Compilation

Developers often rely on powerful processors to compile large codebases efficiently. The HPE Epyc 7f72 Processor's clock speed of 3.2GHz enables rapid software compilation, reducing wait times and improving overall development workflow. With faster compilation times, developers can iterate quickly, test their code more frequently, and ultimately deliver software faster. This feature is particularly valuable for teams working on time-sensitive projects or those aiming to optimize their development processes.

Overclocking Potential

For users seeking even more performance, the HPE Epyc 7f72 Processor's 3.2GHz clock speed offers excellent overclocking potential. Overclocking involves pushing the processor beyond its default clock speed to achieve even higher performance levels. With the 3.2GHz base clock speed as a starting point, users can potentially push the processor to even greater speeds, unlocking additional power for demanding tasks or resource-intensive applications.

Number Of Cores: 24

Enhanced Parallel Processing

The HPE Epyc 7f72 Processor is equipped with an impressive 24 cores, offering users enhanced parallel processing capabilities. The number of cores directly correlates with the processor's ability to handle multiple tasks simultaneously. With 24 cores at your disposal, you can effortlessly tackle complex workloads, such as rendering high-resolution graphics, running virtual machines, or performing data analysis.

Improved Multithreading

Each core of the HPE Epyc 7f72 Processor supports simultaneous multithreading (SMT), also known as hyper-threading. SMT allows each physical core to handle multiple threads concurrently, effectively doubling the number of logical processors available for multitasking. With 24 cores and SMT enabled, the processor can effectively handle up to 48 threads simultaneously, significantly improving multitasking capabilities and overall system responsiveness.

Optimized Server Performance

The HPE Epyc 7f72 Processor's 24 cores make it an excellent choice for server applications that require high-performance computing. Servers often handle a multitude of tasks simultaneously, including virtualization, database management, and web hosting. The 24 cores ensure that the processor can efficiently handle these demanding workloads, resulting in improved server performance, reduced latency, and enhanced overall user experience.

Parallel Data Processing

With 24 cores, the HPE Epyc 7f72 Processor excels at parallel data processing. This is particularly valuable in scenarios where large datasets need to be analyzed or processed quickly. Tasks such as scientific simulations, big data analytics, or video encoding can be completed in significantly less time due to the processor's ability to distribute the workload across multiple cores. The 24 cores ensure efficient data processing, enabling users to derive insights or complete data-intensive tasks swiftly.

High Scalability

The 24 cores of the HPE Epyc 7f72 Processor also contribute to its high scalability. Scalability refers to the ability of a system to handle increasing workloads or accommodate future growth. With 24 cores, users have ample room for expansion and can easily scale their applications or processes as demand grows. This scalability ensures that your system remains performant and responsive even as your workload increases over time.

Cache Size: 192MB L3 Cache

Accelerated Data Access

The HPE Epyc 7f72 Processor boasts an impressive 192MB L3 cache size, which plays a vital role in optimizing data access and retrieval. The cache serves as a high-speed memory buffer that stores frequently accessed instructions and data closer to the processor's cores, reducing the time required for data retrieval. With a larger cache size, the processor can hold more data closer to the cores, resulting in faster access and improved overall performance.

Reduced Memory Latency

By utilizing a larger L3 cache, the HPE Epyc 7f72 Processor minimizes memory latency, which refers to the time it takes for the processor to access data from the main memory. With a larger cache, the processor can store and retrieve more data without relying on slower memory access. This reduction in memory latency enhances overall system responsiveness, allowing applications to fetch data quickly and execute instructions more efficiently.

Improved Workload Distribution

The 192MB L3 cache of the HPE Epyc 7f72 Processor enables better workload distribution across the cores. As each core can access a larger pool of cached data, the processor can distribute tasks more effectively, ensuring that each core has access to the necessary data for processing. This improved workload distribution results in better load balancing, reduced contention, and overall improved performance for applications running on the processor.

Enhanced Virtualization Performance

Virtualization is a key technology used in modern computing environments to optimize resource utilization and enable multiple operating systems or applications to run concurrently. The HPE Epyc 7f72 Processor's large L3 cache size significantly enhances virtualization performance. By storing frequently accessed data closer to the cores, the processor can quickly serve virtual machines' memory requests, resulting in improved virtualization performance and reduced latency.

Efficient Caching Algorithms

The HPE Epyc 7f72 Processor employs advanced caching algorithms that ensure efficient utilization of its 192MB L3 cache. These algorithms intelligently predict which instructions and data will be needed next, optimally populating the cache with the most relevant information. By efficiently utilizing the cache, the processor minimizes cache misses and maximizes performance, resulting in faster data access and improved overall system efficiency.

Socket Type: SP3

Platform Compatibility

The HPE Epyc 7f72 Processor features a Socket SP3, ensuring compatibility with specific server platforms. The SP3 socket type is designed to accommodate high-performance processors and is a widely supported standard in the server industry. By utilizing the SP3 socket, users can seamlessly integrate the HPE Epyc 7f72 Processor into compatible server platforms without the need for additional modifications or upgrades.

Scalability and Flexibility

The SP3 socket type offers scalability and flexibility to meet varying performance requirements. Servers equipped with the SP3 socket can support a range of processors, including those with different core counts and clock speeds. This flexibility allows users to choose the appropriate processor based on their specific needs while ensuring compatibility with the server platform. Whether you require a high-core-count processor or one with higher clock speeds, the SP3 socket type accommodates your scalability needs.

Reliable Server Infrastructure

The SP3 socket type is known for its robustness and reliability, making it an ideal choice for mission-critical server infrastructures. Servers utilizing the SP3 socket are designed to deliver exceptional performance while ensuring stability and uptime. This reliability is crucial for businesses that rely on their servers to power critical applications, handle large workloads, or store sensitive data. The SP3 socket provides peace of mind by offering a stable and resilient foundation for server operations.

Future-Proofing

Investing in a server platform that supports the SP3 socket type ensures future-proofing your infrastructure. As technology advances and new processors become available, having a compatible socket enables easy upgrades without requiring a complete overhaul of the server hardware. The SP3 socket's wide adoption and support from various manufacturers ensure that users can take advantage of future processor advancements, extending the lifespan and capabilities of their server infrastructure.

Industry Standard Compliance

The SP3 socket type complies with industry standards, ensuring compatibility with other components and peripherals. This compliance enables seamless integration with other server components, such as memory modules, storage devices, and expansion cards. By adhering to industry standards, the SP3 socket type facilitates interoperability and simplifies the process of building or upgrading server systems, reducing compatibility issues and streamlining the deployment process.

Part Number: P27258-B21

Easy Identification

The HPE Epyc 7f72 Processor's part number, P27258-B21, serves as a unique identifier for this specific model. By referencing the part number, users can easily identify and procure the correct processor without confusion or ambiguity. The part number ensures accuracy when ordering or discussing the processor, making it an essential piece of information for users, resellers, and system integrators.

Compatibility Verification

The part number, P27258-B21, also assists in verifying compatibility with other system components. When planning to upgrade or replace a processor, users can cross-reference the part number with their existing hardware specifications to ensure compatibility. This verification process eliminates the risk of purchasing incompatible components and streamlines the upgrade process by providing a clear reference point.

Warranty and Support

The part number plays a crucial role in warranty and support processes. Manufacturers often use part numbers to track specific models and their associated warranties. By providing the part number when seeking support or warranty services, users can ensure that they receive assistance or replacement parts specific to their HPE Epyc 7f72 Processor model. This streamlines the support process and helps deliver prompt and accurate solutions.

Documentation and Resources

The part number is often used in product documentation and online resources to provide specific information about the HPE Epyc 7f72 Processor. Whether users are looking for technical specifications, installation guides, or software updates, referencing the part number, P27258-B21, ensures that they access the correct information for their particular model. This helps users make informed decisions, troubleshoot issues, and maximize the potential of their processor.

Product Lifecycle Management

Part numbers are also essential for product lifecycle management. Manufacturers use part numbers to track the production, distribution, and discontinuation of specific models. By referencing the part number, users can ascertain the lifecycle stage of their processor and plan accordingly for future upgrades or replacements. This information facilitates long-term planning and ensures that users can effectively manage their hardware infrastructure.