HPE P53701-B21 AMD EPYC 32-Core 3.25GHz 256MB L3 Cache Processor
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Hewlett Packard Enterprise 9354 Server Processor Overview
General Product Information
- Type: Server Processor
- Manufacturer: HPE
- Manufacturer Part Number: P53701-B21
- Model: 9354
Technical Specifications
Processor Architecture and Performance
The HPE 9354 processor is engineered for superior performance with the following key attributes:
- Core Count: 32 cores
- Base Clock Speed: 3.25 GHz
- Maximum Boost Clock: Up to 3.8 GHz
Cache Memory Features
This processor is equipped with advanced caching technology to enhance data access speeds:
- L3 Cache: 256 MB
Memory Capabilities
Memory Specifications and Performance
The 9354 supports a robust memory architecture, making it suitable for high-demand applications:
- System Memory Type: DDR5
- Memory Channels: 12
- Memory Speed: Up to 4800 MHz
- Per Socket Memory Bandwidth: 460.8 GB/s
- Maximum Thermal Design Power (TDP): 300 W
- Compatible Socket: SP5
Speed
The AMD EPYC 32 Core Processor boasts an impressive clock speed of 3.25 GHz, making it one of the fastest processors on the market. This high speed is achieved through advanced architecture and cutting-edge technology, providing users with unmatched performance and responsiveness.
Unleash the Power
With a clock speed of 3.25 GHz, the AMD EPYC 32 Core Processor delivers lightning-fast processing capabilities. This means that tasks, whether it's running complex simulations, rendering high-resolution graphics, or multitasking between resource-intensive applications, can be completed in record time. Users can experience unparalleled speed and efficiency, allowing them to work more efficiently and accomplish more in less time.
Smooth Multitasking
Multitasking is a breeze with the AMD EPYC 32 Core Processor's high clock speed. It can handle multiple intensive applications simultaneously without any lag or slowdowns. Whether you're editing videos while running virtual machines or streaming high-definition content while gaming, this processor ensures smooth performance and seamless transitions between tasks.
Enhanced Gaming Experience
Gamers will appreciate the AMD EPYC 32 Core Processor's high clock speed, as it significantly improves gaming performance. With faster processing capabilities, games load quicker, and frame rates are smoother, resulting in a more immersive and enjoyable gaming experience. Say goodbye to lag and stuttering and hello to seamless gameplay.
Efficient Workflows
The 3.25 GHz clock speed of the AMD EPYC 32 Core Processor enables professionals to tackle resource-intensive workloads with ease. From video editing and 3D modeling to data analysis and scientific simulations, this processor ensures efficient workflows by reducing processing time and enabling real-time rendering and calculations.
Increased Productivity
In today's fast-paced world, every second counts. The AMD EPYC 32 Core Processor's high clock speed translates to increased productivity. Tasks that used to take hours can now be completed in minutes, allowing users to save time and focus on other important aspects of their work or personal life. With this processor, productivity levels soar, and deadlines become easily achievable.
Seamless Virtualization
The AMD EPYC 32 Core Processor's 3.25 GHz clock speed is ideal for virtualization environments. It provides the necessary power to run multiple virtual machines simultaneously without compromising performance. Whether you're running a virtualized server infrastructure or creating virtual testing environments, this processor ensures seamless virtualization without any noticeable lag or slowdowns.
Future-Proof Performance
Investing in the AMD EPYC 32 Core Processor means future-proofing your system. Its high clock speed ensures that it can handle the demands of upcoming software and applications, providing users with a reliable and powerful processor for years to come. With its exceptional performance, users can stay ahead of the curve and tackle any computing challenge that comes their way.
Cache
The AMD EPYC 32 Core Processor comes equipped with an impressive 256MB L3 cache, making it an ideal choice for demanding workloads that require quick access to large amounts of data. This generous cache size provides numerous benefits and plays a crucial role in enhancing performance and efficiency.
Improved Data Access
The large 256MB L3 cache of the AMD EPYC 32 Core Processor allows for faster and more efficient data access. With more data stored closer to the processor, it can retrieve information quickly, reducing latency and improving overall performance. This is especially beneficial for applications that frequently access large datasets, such as big data analytics, machine learning, and database management systems.
Reduced Memory Latency
By storing frequently accessed data in the cache, the AMD EPYC 32 Core Processor significantly reduces memory latency. This means that the processor can retrieve data from the cache much faster compared to accessing it from the main memory. As a result, applications experience improved responsiveness and faster execution times, leading to enhanced user experience and productivity.
Accelerated Virtualization Performance
Virtualization environments heavily rely on memory access speed. The generous 256MB L3 cache of the AMD EPYC 32 Core Processor ensures that virtual machines can access frequently used data quickly, minimizing latency and improving overall virtualization performance. This is particularly crucial for scenarios where multiple virtual machines are running simultaneously, as it ensures smooth operation and prevents performance bottlenecks.
Enhanced Gaming Experience
The large cache size of the AMD EPYC 32 Core Processor contributes to an enhanced gaming experience. With frequently accessed game assets stored in the cache, the processor can quickly retrieve them, reducing load times and improving overall game performance. This results in smoother gameplay, reduced stuttering, and an immersive gaming experience that keeps players engaged for longer periods.
Seamless Content Creation
Content creators, such as video editors and graphic designers, often work with large files and complex projects. The 256MB L3 cache of the AMD EPYC 32 Core Processor ensures quick access to frequently used assets, such as video clips, images, and effects, improving workflow efficiency and reducing rendering times. This allows content creators to focus on their creative process rather than waiting for files to load or render.
Efficient Data Processing
The sizable cache of the AMD EPYC 32 Core Processor enables efficient data processing for a wide range of applications. Whether it's crunching numbers in financial modeling, running simulations in scientific research, or analyzing large datasets in artificial intelligence, the cache ensures quick access to data, reducing processing time and enabling faster insights and decision-making.
Boosted System Performance
The 256MB L3 cache of the AMD EPYC 32 Core Processor plays a pivotal role in boosting overall system performance. By minimizing memory latency and providing quick access to frequently used data, the cache enhances the performance of all applications and processes running on the system. Users can expect snappy response times, smoother multitasking, and a more efficient computing experience overall.
Socket
The AMD EPYC 32 Core Processor utilizes the HPE P53701-B21 socket, a high-performance socket designed to maximize compatibility, reliability, and scalability. This socket offers several benefits and is an important consideration for users looking for a powerful and future-proof processor solution.
Wide Compatibility
The HPE P53701-B21 socket used by the AMD EPYC 32 Core Processor ensures wide compatibility with various server and workstation platforms. This means that users can easily integrate the processor into their existing infrastructure without the need for major hardware upgrades or replacements. The socket's compatibility extends to both current and future generations of server platforms, providing users with a flexible and future-proof solution.
Reliability and Stability
The HPE P53701-B21 socket is known for its exceptional reliability and stability. It provides a secure connection between the processor and the motherboard, ensuring consistent performance even under heavy workloads or demanding conditions. This reliability is crucial for mission-critical applications that require continuous operation without any disruptions or system failures.
Scalability and Future Expansion
The HPE P53701-B21 socket supports scalability, allowing users to easily expand their system's processing capabilities as their needs grow. Whether it's adding more processors or upgrading to higher-core count variants, this socket provides the flexibility to scale the system's performance without requiring significant changes to the overall architecture. This scalability ensures that users can adapt to evolving workloads and technological advancements without the need for a complete system overhaul.
Efficient Resource Utilization
The HPE P53701-B21 socket facilitates efficient resource utilization by allowing multiple processors to work in tandem. This enables users to harness the combined processing power of multiple AMD EPYC 32 Core Processors, resulting in improved performance and faster data processing. Applications that can take advantage of parallel processing, such as scientific simulations and data analysis, benefit greatly from this feature, as it allows for faster computations and reduced time to insights.
Future-Proof Investment
Investing in a processor with the HPE P53701-B21 socket ensures future-proofing your system. The socket's compatibility with future server platforms means that users can easily upgrade their systems without requiring a complete overhaul. This protects the investment made in the AMD EPYC 32 Core Processor, allowing users to stay up-to-date with the latest technologies and maintain a competitive edge without incurring significant additional costs.
Enhanced System Performance
The HPE P53701-B21 socket contributes to enhanced system performance by providing a stable and reliable connection between the processor and motherboard. This direct connection minimizes latency and ensures efficient data transfer, resulting in improved overall system performance. Users can expect snappy response times, reduced bottlenecks, and a smoother computing experience.
Optimized Workflows
The HPE P53701-B21 socket's compatibility with multiple processors enables optimized workflows for various applications. Users can allocate specific tasks or workloads to different processors, ensuring efficient resource allocation and maximizing performance. This is particularly beneficial for server environments where workload balancing is crucial to maintaining high levels of productivity and responsiveness.
In conclusion, the AMD EPYC 32 Core Processor, with its 3.25 GHz clock speed, 256MB L3 cache, and HPE P53701-B21 socket, offers users a powerful and future-proof solution for their computing needs. The high clock speed ensures lightning-fast processing capabilities, smooth multitasking, and enhanced gaming experiences. The generous cache size improves data access, reduces memory latency, and accelerates virtualization performance. The HPE P53701-B21 socket provides wide compatibility, reliability, scalability, and enhanced system performance. Whether you're a professional handling resource-intensive workloads or a gamer seeking top-notch performance, the AMD EPYC 32 Core Processor is an excellent choice that delivers on both speed and efficiency.