HPE Amd Epyc 9654p 96-core Processor 2.4ghz 384mb L3 Cache SP5 360w (P56103-B21)

HPE Amd Epyc 9654p 96-core 2.4ghz 384mb L3 Cache Socket Sp5 360w Processor (P56103-B21)

Core Count: 96

The HPE Epyc 9654p Processor is equipped with an impressive core count of 96, making it a powerful option for users who require high-performance computing capabilities. With such a large number of cores, this processor is designed to handle demanding workloads and deliver exceptional processing power.

Improved Multitasking and Parallel Processing

Having 96 cores allows users to perform multiple tasks simultaneously without experiencing any significant performance degradation. Each core can independently execute instructions, enabling efficient multitasking and parallel processing. This feature is particularly beneficial for users who need to run resource-intensive applications or perform complex calculations.

Enhanced Performance in Virtualization Environments

Virtualization is a crucial aspect of modern computing, and the HPE Epyc 9654p Processor's high core count greatly enhances its performance in virtualized environments. With more cores available, the processor can allocate resources more effectively and run multiple virtual machines concurrently, resulting in improved overall performance and responsiveness.

Optimized Performance for Data-Intensive Workloads

Data-intensive workloads, such as big data analytics and scientific simulations, can benefit greatly from the HPE Epyc 9654p Processor's 96 cores. These workloads often involve processing large volumes of data simultaneously, and the abundance of cores ensures that the processor can handle the workload efficiently, reducing processing times and improving productivity.

Efficient Resource Utilization

The large core count of the HPE Epyc 9654p Processor allows for better resource utilization. With more cores available, the processor can distribute the workload evenly across the cores, preventing overutilization of individual cores and maximizing overall efficiency. This results in improved system performance and better utilization of hardware resources.

Base Clock Speed: 2.4GHz

The base clock speed of 2.4GHz is an important feature of the HPE Epyc 9654p Processor, as it determines the minimum speed at which the processor operates. This feature plays a crucial role in the overall performance and responsiveness of the system.

Smooth and Responsive System Operation

A higher base clock speed ensures that the processor can execute instructions more quickly, leading to a smoother and more responsive system operation. Tasks such as opening applications, loading files, and navigating through the operating system will be faster and more efficient, enhancing user experience and productivity.

Improved Single-Threaded Performance

Certain applications and tasks rely heavily on single-threaded performance, meaning they can only utilize a single core at a time. In these scenarios, a higher base clock speed becomes crucial for achieving optimal performance. The 2.4GHz base clock speed of the HPE Epyc 9654p Processor ensures that single-threaded tasks are executed swiftly, resulting in improved performance for applications that heavily rely on single-threaded processing.

Efficient Execution of Common Tasks

Many everyday computing tasks, such as web browsing, email, and document editing, do not require a high number of cores but benefit greatly from a higher base clock speed. The 2.4GHz base clock speed allows the processor to handle these tasks efficiently, providing a seamless user experience and ensuring that common tasks are executed swiftly.

Optimized Performance for Gaming

Gamers also stand to benefit from the HPE Epyc 9654p Processor's 2.4GHz base clock speed. While gaming primarily relies on the graphics processing unit (GPU), the CPU still plays a significant role in overall performance. A higher base clock speed ensures that CPU-intensive tasks in games, such as physics calculations and AI processing, are executed quickly and efficiently, resulting in smoother gameplay and improved frame rates.

L3 Cache: 384MB

The L3 cache is a key feature of the HPE Epyc 9654p Processor, providing high-speed access to frequently used data. With a generous cache size of 384MB, this processor offers several benefits that contribute to enhanced performance and efficiency.

Reduced Memory Latency

The L3 cache acts as a buffer between the processor cores and main memory, storing frequently accessed data closer to the cores for fast retrieval. With a larger cache size, such as the 384MB provided by this processor, more data can be stored in the cache, reducing the need to fetch data from slower main memory. This results in reduced memory latency and faster data access times, improving overall system performance.

Improved Instruction Throughput

The larger L3 cache size of the HPE Epyc 9654p Processor allows for improved instruction throughput. Frequently used instructions and data can be stored in the cache, ensuring that they are readily available for execution. This reduces the time required to fetch instructions from main memory, enabling the processor to execute instructions more quickly and enhancing overall processing efficiency.

Enhanced Performance for Multi-Threaded Workloads

Multi-threaded workloads, such as video rendering and scientific simulations, can benefit significantly from a larger L3 cache. These workloads often involve accessing and manipulating large datasets simultaneously across multiple threads. The generous 384MB L3 cache size of this processor allows for more data to be stored closer to the cores, reducing data access latency and improving performance for multi-threaded tasks.

Efficient Data Sharing Between Cores

The L3 cache also facilitates efficient data sharing between processor cores. When multiple cores require access to the same data, it can be stored in the cache, allowing for quick and simultaneous access by multiple cores. This reduces the need for data to be transferred between cores or fetched from main memory, minimizing latency and improving overall performance.

Socket Type: SP5

The HPE Epyc 9654p Processor features the SP5 socket type, which is specifically designed for high-performance computing and server applications. The socket type plays a crucial role in ensuring compatibility and providing the necessary infrastructure for optimal processor performance.

High Scalability and Expandability

The SP5 socket type is designed to support high scalability and expandability, making it an ideal choice for server environments. It allows for multiple processors to be installed on a single motherboard, enabling the creation of powerful multi-processor systems. The ability to scale up the processing power by adding more processors is particularly beneficial for applications that require massive computational capabilities or handle heavy workloads.

Improved Reliability and Redundancy

Server environments often require high availability and redundancy to ensure uninterrupted operation. The SP5 socket type provides support for features such as hot-swappable processors and memory modules, allowing for seamless replacement or upgrade without shutting down the system. This enhances reliability and minimizes downtime, which is essential for critical server applications.

Optimized Performance for Server Workloads

The SP5 socket type is specifically optimized for server workloads, ensuring that the processor can deliver exceptional performance in these environments. It provides a robust infrastructure that allows for efficient communication between processors and other system components, minimizing latency and maximizing overall performance. This makes the HPE Epyc 9654p Processor an excellent choice for servers that require high processing power and reliability.

Future-Proofing

Investing in a processor with the SP5 socket type offers future-proofing benefits. As new processors with improved performance and features are released, users can upgrade their systems by simply replacing the existing processor with a compatible one. This allows users to keep their infrastructure up to date without the need for a complete system overhaul, providing cost savings and ensuring compatibility with future technologies.

Power Consumption: 360W

The power consumption of a processor is an important consideration for users, as it affects energy efficiency, heat generation, and overall system performance. The HPE Epyc 9654p Processor has a power consumption of 360W, striking a balance between performance and energy efficiency.

Energy Efficiency

With a power consumption of 360W, the HPE Epyc 9654p Processor delivers a high level of performance while maintaining energy efficiency. This is especially important in large-scale server deployments where energy costs can be substantial. By optimizing power consumption, users can reduce operational expenses and minimize their environmental footprint.

Heat Dissipation

Efficient heat dissipation is crucial for maintaining optimal system performance and preventing overheating. The HPE Epyc 9654p Processor's power consumption of 360W ensures that the processor generates an appropriate amount of heat that can be effectively dissipated by cooling systems. This helps to maintain stable operating temperatures and prevents thermal throttling, which can lead to performance degradation.

Performance per Watt

The power consumption of a processor directly impacts its performance per watt ratio. A higher ratio indicates better energy efficiency and performance optimization. With a power consumption of 360W, the HPE Epyc 9654p Processor strikes a balance between power consumption and performance, offering users an efficient solution that maximizes computing capabilities while minimizing energy usage.

Compatibility with Power Infrastructure

The power consumption of a processor is an important consideration when planning the power infrastructure of a system or data center. The 360W power consumption of the HPE Epyc 9654p Processor ensures compatibility with existing power supply units and infrastructure, eliminating the need for costly upgrades or modifications. This simplifies the deployment process and allows users to seamlessly integrate the processor into their existing infrastructure.

Part Number: P56103-B21

The part number, P56103-B21, is a unique identifier for the HPE Epyc 9654p Processor, allowing users to easily identify and procure the correct product. Understanding the part number and its significance is essential for users who need to replace or upgrade their processor.

Accurate Product Identification

With a specific part number like P56103-B21, users can accurately identify the HPE Epyc 9654p Processor without any confusion or ambiguity. This is particularly important when procuring replacement parts or upgrading existing systems. By using the correct part number, users can ensure that they are getting the exact processor they require, preventing compatibility issues and ensuring seamless integration.

Compatibility Verification

The part number also plays a vital role in compatibility verification. Users can cross-reference the part number with system specifications and compatibility lists to ensure that the HPE Epyc 9654p Processor is compatible with their existing hardware and software infrastructure. This helps prevent costly procurement mistakes and ensures a smooth installation process.

Warranty and Support

The part number is often associated with warranty and support services provided by the manufacturer. By providing the part number when seeking support or warranty claims, users can ensure that they receive the appropriate assistance for their specific product. This simplifies the support process and helps expedite any necessary repairs or replacements.

Easy Ordering and Procurement

The part number makes ordering and procurement of the HPE Epyc 9654p Processor straightforward and efficient. Users can simply provide the part number to their preferred vendor or reseller, ensuring that they receive the correct product without any confusion or delays. This streamlines the procurement process and eliminates any potential errors that may arise from miscommunication or incorrect product identification.