HPE P21963-001 AMD EPYC 7552 48-Core CPU 2.2GHz with 192MB L3 Cache and Socket Sp3

Core Count: 48

Introduction

The HPE AMD EPYC 7552 CPU is equipped with an impressive core count of 48, making it a powerhouse in terms of processing capabilities. This feature alone sets it apart from many other CPUs on the market and provides numerous benefits for users seeking high-performance computing solutions.

Enhanced Multitasking

With 48 cores, the HPE AMD EPYC 7552 CPU offers exceptional multitasking capabilities. Whether you're running multiple applications simultaneously or handling complex computational tasks, this CPU can handle the workload efficiently without compromising performance. The increased core count allows for better resource allocation and distribution, ensuring smooth and uninterrupted operations even under heavy workloads.

Improved Productivity

For professionals and businesses that rely heavily on computing power, the HPE AMD EPYC 7552 CPU's 48 cores can significantly boost productivity. It enables faster data processing, rendering, and analysis, allowing users to complete tasks more quickly and efficiently. This increased efficiency translates into time savings and enables users to focus on other critical aspects of their work.

Optimal Virtualization Performance

In virtualized environments, the core count plays a crucial role in determining the number of virtual machines that can be efficiently run. With 48 cores, the HPE AMD EPYC 7552 CPU provides ample resources to host multiple virtual machines simultaneously without compromising performance. This capability is particularly beneficial for businesses that heavily rely on virtualization for their operations, such as cloud service providers or data centers.

Seamless Resource Allocation

The substantial core count of the HPE AMD EPYC 7552 CPU allows for efficient resource allocation among different tasks or processes. It ensures that each task receives an adequate number of cores to perform optimally, preventing bottlenecks and maintaining smooth operations. This seamless resource allocation enhances the overall system responsiveness and minimizes any potential slowdowns or lag.

Scalability and Future-Proofing

Investing in a CPU with a high core count like the HPE AMD EPYC 7552 ensures scalability and future-proofing of your computing infrastructure. As software and applications become more demanding, the ability to scale up processing power becomes increasingly important. The 48 cores of this CPU allow for ample headroom to handle future growth and ensure that your system remains powerful and capable in the long run.

Enhanced Parallel Processing

Parallel processing refers to the ability to execute multiple tasks or instructions simultaneously. The HPE AMD EPYC 7552 CPU's 48 cores enable extensive parallel processing, allowing for faster execution of parallelized workloads. This is particularly advantageous for applications that heavily rely on parallel computing, such as scientific simulations, data analysis, and simulations.

Base Clock Speed: 2.2GHz

Introduction

The base clock speed is a fundamental characteristic of a CPU that determines its overall performance and responsiveness. The HPE AMD EPYC 7552 CPU boasts a base clock speed of 2.2GHz, which contributes significantly to its reliable and efficient operation across various computing tasks.

Optimal Efficiency

The base clock speed of 2.2GHz ensures that the HPE AMD EPYC 7552 CPU operates at an ideal balance between performance and power consumption. It allows the CPU to deliver optimal efficiency by providing sufficient computing power while minimizing energy consumption. This efficiency is particularly crucial for data centers or environments where power consumption needs to be carefully managed.

Responsive System Operations

The base clock speed directly influences the responsiveness of a system. With a base clock speed of 2.2GHz, the HPE AMD EPYC 7552 CPU ensures swift execution of instructions, resulting in a highly responsive computing experience. Whether you're launching applications, navigating through complex software, or performing computationally intensive tasks, the CPU's high base clock speed ensures minimal latency and smooth operations.

Boosting Single-Threaded Performance

While multi-core performance is essential for multitasking and parallel processing, many applications still heavily rely on single-threaded performance. The base clock speed of 2.2GHz on the HPE AMD EPYC 7552 CPU ensures that even single-threaded tasks are executed efficiently and at an impressive speed. This enables applications that are primarily single-threaded, such as gaming or certain productivity software, to run smoothly without any bottlenecks.

Handling Burst Workloads

In addition to its base clock speed, the HPE AMD EPYC 7552 CPU also features dynamic overclocking capabilities. This means that when faced with burst workloads or demanding tasks that require additional processing power, the CPU can automatically increase its clock speed to deliver the required performance. This ability to handle burst workloads effectively ensures smooth operation even in situations where processing demands spike temporarily.

Improved Overall System Performance

The base clock speed plays a crucial role in determining the overall performance of a system. With a base clock speed of 2.2GHz, the HPE AMD EPYC 7552 CPU contributes significantly to the overall system's performance by providing a solid foundation for all computing tasks. It ensures that the CPU can handle everyday tasks with ease and delivers exceptional performance across a wide range of applications and workloads.

L3 Cache: 192MB

Introduction

The L3 cache is a critical component of modern CPUs that enhances their processing capabilities and efficiency. The HPE AMD EPYC 7552 CPU features a substantial L3 cache size of 192MB, which brings several benefits and ensures optimal performance in various computing scenarios.

Improved Memory Access Speed

The L3 cache serves as a middle ground between the CPU cores and the system memory. With a generous L3 cache size of 192MB, the HPE AMD EPYC 7552 CPU can store frequently accessed data closer to the cores, reducing the need to fetch data from slower system memory. This results in improved memory access speed, reducing latency and enhancing overall system performance.

Efficient Data Sharing

The large L3 cache size enables efficient data sharing among different CPU cores. When multiple cores need access to the same data, having a larger L3 cache allows for faster data retrieval, minimizing delays caused by inter-core communication. This efficient data sharing is particularly beneficial in multi-threaded applications or workloads that involve extensive data dependencies between different computing units.

Accelerated Application Performance

The presence of a significant L3 cache size directly contributes to accelerated application performance. By reducing the time required to fetch data from the system memory, the CPU can process instructions more quickly and efficiently. This translates into faster application execution and improved overall user experience, especially in tasks that rely heavily on memory access, such as data analysis, simulations, or content creation.

Enhanced Virtualization Performance

Virtualized environments heavily rely on efficient memory access to deliver optimal performance. The substantial L3 cache size of 192MB on the HPE AMD EPYC 7552 CPU allows for better virtual machine performance by reducing latency and improving memory access speed. This is crucial for businesses or organizations that heavily utilize virtualization technologies, ensuring that multiple virtual machines can operate smoothly without any noticeable performance degradation.

Reduced Power Consumption

Efficient memory access plays a significant role in power consumption optimization. With a larger L3 cache, the HPE AMD EPYC 7552 CPU can minimize the frequency of accessing the system memory, which consumes more power. By reducing the need to fetch data from slower memory, the CPU can operate more efficiently, resulting in lower power consumption. This benefit is particularly important for data centers or environments where power efficiency is a priority.

Socket Type: Sp3

Introduction

The socket type is a crucial consideration when choosing a CPU as it determines compatibility with the motherboard and overall system configuration. The HPE AMD EPYC 7552 CPU features the Sp3 socket type, which offers several benefits and importance for users seeking a reliable and high-performance computing solution.

Compatibility and Expandability

The Sp3 socket type is specifically designed for high-performance CPUs like the HPE AMD EPYC 7552. Choosing a CPU with the Sp3 socket type ensures compatibility with motherboards that support this socket, allowing for seamless integration into your existing system or future expansion. This compatibility ensures that your investment in the HPE AMD EPYC 7552 CPU is future-proof and allows for easy upgrades or system modifications without requiring significant changes to the infrastructure.

Support for High Memory Capacity

The Sp3 socket type supports a large number of memory channels, allowing for high memory capacity configurations. This is particularly important for applications and workloads that require extensive memory resources, such as virtualization, big data analysis, or scientific simulations. The combination of the HPE AMD EPYC 7552 CPU and the Sp3 socket type enables users to leverage large memory configurations, which can significantly enhance overall system performance.

Scalability and Flexibility

The Sp3 socket type offers scalability and flexibility, allowing users to choose CPUs with varying core counts, clock speeds, and cache sizes. This flexibility ensures that you can tailor your system configuration according to your specific requirements, whether you need a high core count for parallel computing or a higher clock speed for single-threaded applications. The availability of different CPU options compatible with the Sp3 socket type gives users the freedom to optimize their system for their unique computing needs.

Reliability and Stability

The Sp3 socket type is known for its robustness and reliability. It provides a stable connection between the CPU and the motherboard, ensuring consistent performance and minimizing any potential hardware issues. This reliability is crucial for businesses or organizations that rely heavily on their computing infrastructure and cannot afford unexpected downtime or system instability. The HPE AMD EPYC 7552 CPU, combined with the Sp3 socket type, offers a reliable and stable platform for demanding computing tasks.

Industry Adoption and Support

The Sp3 socket type has gained significant industry adoption and support from various hardware manufacturers, ensuring a wide range of compatible motherboards and associated components. This widespread adoption makes it easier to find compatible components, accessories, and support for your system based on the HPE AMD EPYC 7552 CPU. It also fosters a vibrant ecosystem of hardware solutions built around the Sp3 socket type, giving users access to a diverse range of options to meet their specific needs.

In conclusion, the HPE AMD EPYC 7552 CPU's core count of 48, base clock speed of 2.2GHz, L3 cache size of 192MB, and Sp3 socket type offer exceptional performance, responsiveness, and scalability for various computing needs. Whether you're a professional requiring high-performance computing or a business seeking efficient virtualization solutions, this CPU delivers on all fronts. Its impressive specifications make it a reliable choice for users looking to enhance their productivity, streamline their operations, and future-proof their computing infrastructure.