HPE EPYC 7272 12-Core 2.9GHz CPU 64MB L3 Cache P24396-B21

Core Count

The HPE EPYC 7272 CPU is a powerhouse when it comes to core count, boasting an impressive 12 cores. This feature alone sets it apart from many other processors on the market and makes it an ideal choice for users who require high-performance computing capabilities.

Improved Multitasking

With 12 cores, the HPE EPYC 7272 CPU enables users to run multiple tasks simultaneously without any noticeable lag or slowdown. This is particularly beneficial for professionals who work with resource-intensive applications such as video editing software, 3D modeling tools, and virtualization platforms. The increased number of cores allows for smoother multitasking, ensuring that all tasks are completed efficiently and without any compromise in performance.

Enhanced Productivity

The abundance of cores in the HPE EPYC 7272 CPU significantly improves productivity for users who engage in tasks that require heavy computational power. Whether it's rendering complex graphics, compiling large codebases, or running data analysis algorithms, the 12-core configuration ensures that these processes are completed in a fraction of the time compared to CPUs with fewer cores. This means that professionals can complete their work faster, enabling them to take on more projects or allocate additional time for optimization and refinement.

Optimal Virtualization Performance

Virtualization has become a fundamental aspect of modern computing environments, allowing users to create multiple virtual machines and run various operating systems simultaneously. The HPE EPYC 7272 CPU's impressive core count is particularly advantageous in virtualized environments as it enables users to allocate dedicated cores to each virtual machine, ensuring optimal performance and reducing the risk of resource contention. This allows businesses to maximize their server utilization and improve overall operational efficiency.

Base Clock Speed

The base clock speed of the HPE EPYC 7272 CPU is set at 2.9GHz, providing a solid foundation for reliable and consistent performance. This feature plays a crucial role in determining how quickly the CPU can execute instructions and handle demanding tasks.

Responsive and Snappy Performance

The 2.9GHz base clock speed ensures that the HPE EPYC 7272 CPU delivers responsive and snappy performance across various applications and workloads. Whether you're browsing the web, working with office applications, or engaging in light gaming, the CPU's base clock speed ensures smooth operation without any noticeable delays or stuttering. This is particularly important for users who require a seamless computing experience without compromising on speed and efficiency.

Seamless Content Creation

Content creators, such as video editors, graphic designers, and animators, heavily rely on powerful CPUs to handle resource-intensive tasks. The HPE EPYC 7272 CPU's base clock speed of 2.9GHz provides a solid foundation for these professionals to work with large files, render complex scenes, and apply intricate effects in real-time. The faster base clock speed allows for quicker processing of data, resulting in reduced rendering times and improved overall productivity.

Efficient Compilation and Code Execution

Developers and programmers often engage in compiling large codebases, which can be time-consuming on CPUs with lower clock speeds. The HPE EPYC 7272 CPU's base clock speed of 2.9GHz accelerates the compilation process, allowing developers to iterate code more rapidly and reduce development cycles. Additionally, the faster base clock speed enhances code execution during runtime, ensuring that applications perform optimally and respond swiftly to user interactions.

L3 Cache

The HPE EPYC 7272 CPU boasts a generous L3 cache size of 64MB, which significantly contributes to its overall performance and responsiveness. The L3 cache acts as a bridge between the CPU and the main memory, storing frequently accessed data to reduce latency and improve efficiency.

Reduced Memory Access Time

With a substantial 64MB L3 cache, the HPE EPYC 7272 CPU can store a larger amount of data closer to the cores, minimizing the need for frequent memory access. This results in reduced latency and faster data retrieval, allowing the CPU to quickly access critical information required for executing tasks. The larger L3 cache size is particularly beneficial for applications that heavily rely on accessing large datasets or performing complex calculations, as it ensures that data is readily available for processing.

Improved Gaming Experience

Gamers can also benefit from the HPE EPYC 7272 CPU's ample L3 cache size. The larger cache allows for quicker access to game assets such as textures, models, and sound files, resulting in faster load times and smoother gameplay. Additionally, the increased cache size helps reduce frame rate drops and stuttering during resource-intensive gaming moments, delivering a more immersive and enjoyable gaming experience.

Enhanced Virtual Machine Performance

In virtualized environments, the HPE EPYC 7272 CPU's generous L3 cache size plays a vital role in improving overall performance. By storing frequently accessed data closer to the cores, virtual machines can quickly retrieve information without relying heavily on memory access. This reduces latency and enhances virtual machine responsiveness, ensuring that users experience smooth operation and minimal lag when working with virtualized applications or running multiple virtual machines simultaneously.

Socket Type

The HPE EPYC 7272 CPU features a Socket Type of Sp3, which is specifically designed for high-performance server platforms. The choice of socket type plays a crucial role in determining compatibility and scalability options for users.

Optimized Server Compatibility

The Sp3 socket type ensures compatibility with server motherboards that support this specific socket. This means that users can easily integrate the HPE EPYC 7272 CPU into their existing server infrastructure without requiring any substantial changes or upgrades. The optimized compatibility allows for a seamless transition and minimal disruption in operations, ensuring that businesses can leverage the CPU's power without investing in additional hardware.

Scalability and Future-Proofing

The Sp3 socket type is designed to accommodate high-performance CPUs with a focus on scalability. This means that users have the flexibility to upgrade to more powerful CPUs in the future without needing to replace the entire server infrastructure. The ability to upscale server capabilities ensures that businesses can adapt to changing demands and technologies, providing a cost-effective solution for long-term growth and expansion.

Reliable and Secure Connectivity

The Sp3 socket type offers robust connectivity options, allowing for secure and reliable communication between the CPU and other components within the server system. This ensures efficient data transfer, minimizing latency and potential bottlenecks that could hinder overall performance. The reliable connectivity provided by the Sp3 socket type is particularly important for mission-critical applications where data integrity and system stability are of utmost importance.

Technology

The HPE EPYC 7272 CPU utilizes advanced 7nm technology, representing a significant leap forward in terms of performance, power efficiency, and overall reliability. The choice of technology has a profound impact on the CPU's capabilities and the user experience.

Unparalleled Performance

The 7nm technology employed by the HPE EPYC 7272 CPU allows for smaller transistor sizes, enabling more transistors to be packed into the same space. This results in increased processing power and improved overall performance. With smaller transistors, signals can travel shorter distances, reducing latency and enhancing data transfer speeds. The use of 7nm technology ensures that users can tackle even the most demanding tasks with ease and efficiency.

Reduced Power Consumption

In addition to performance improvements, the 7nm technology offers enhanced power efficiency. Smaller transistors require less power to operate, resulting in reduced energy consumption and lower heat generation. The HPE EPYC 7272 CPU's utilization of 7nm technology translates to cost savings for businesses, as they benefit from a more energy-efficient solution that minimizes electricity bills and cooling requirements.

Improved Reliability and Longevity

The HPE EPYC 7272 CPU's adoption of 7nm technology also contributes to its overall reliability and longevity. Smaller transistors are generally more resistant to thermal stress, reducing the risk of overheating and potential failures. Additionally, the improved power efficiency provided by the 7nm technology ensures that the CPU operates within optimal temperature ranges, prolonging its lifespan and minimizing the need for frequent replacements or upgrades.