HPE P38705-B21 3.2 GHz AMD Epyc 24-core Processor with 265MB L3 Cache
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Product Overview
Discover the advanced features of the Hewlett Packard Enterprise Epyc 74f3 server processor, model number P38705-B21. This high-performance component is designed to elevate your computing capabilities with its robust specifications.
General Product Details
- Type: Server Processor
- Manufacturer: Hewlett Packard Enterprise
- Model Number: Epyc 74f3
- Part Number: P38705-B21
Technical Specifications
Core and Performance
- Core Count: 24-core
- Base Clock Speed: 3.2 GHz
- Max Boost Clock: Up to 4.0 GHz
Cache and Power Details
- L3 Cache: 256 MB
- Process Technology: 7nm
- Maximum Thermal Design Power (TDP): 240 W
- Compatible Socket: SP3
Compatibility and Integration
- Socket Type: SP3 for seamless integration with compatible server boards.
- Thermal Design: Optimized for high performance with a TDP of 240 W.
Why Choose This Processor?
- Exceptional performance with 24 cores and high clock speeds.
- Advanced 7nm technology for energy efficiency and power.
- Large L3 cache enhances data processing and reduces latency.
Cache
The HPE 3.2 GHz AMD Epyc 24-core Processor is equipped with a powerful cache feature that plays a crucial role in enhancing the overall performance and efficiency of the processor. With a substantial 265MB L3 cache, this processor ensures swift data access and retrieval, making it an ideal choice for demanding workloads and resource-intensive applications.
Benefits of a Large Cache
A large cache size, such as the 265MB L3 cache in this processor, offers several benefits to users:
Improved Processing Speed
The primary advantage of a large cache is the improved processing speed it offers. The cache acts as a high-speed memory buffer between the processor and the main memory, storing frequently accessed data and instructions. When the processor needs to retrieve data or instructions, it first checks the cache. With a larger cache, the chances of finding the required data within the cache are higher, leading to faster processing speeds.
Reduced Memory Latency
Memory latency refers to the time taken by the processor to access data from the main memory. A larger cache helps reduce memory latency by storing frequently accessed data closer to the processor. This proximity allows for quicker data retrieval, minimizing delays caused by accessing data from the main memory. As a result, applications and processes that heavily rely on data access experience significant performance improvements.
Enhanced Multi-Threaded Performance
In today's computing landscape, multi-threaded applications have become increasingly common. These applications divide tasks into multiple threads that can be executed simultaneously by different CPU cores. A larger cache size benefits multi-threaded performance by allowing each core to access its own portion of the cache, reducing contention and improving overall efficiency. This enables smoother parallel execution of threads, resulting in faster completion times for multi-threaded workloads.
Optimized Virtualization Performance
Virtualization technology enables the creation of multiple virtual machines (VMs) on a single physical server. Each VM requires access to system resources, including CPU, memory, and storage. A larger cache size, such as the 265MB L3 cache in this processor, helps optimize virtualization performance by providing faster access to frequently accessed data and instructions. This ensures smooth and efficient operation of virtualized environments, allowing for increased consolidation ratios and improved resource utilization.
Improved Gaming Experience
Gamers often require high-performance processors to handle demanding games that rely on complex computations. A larger cache size can significantly enhance the gaming experience by reducing loading times and improving overall responsiveness. The quick retrieval of game data from the cache ensures smooth gameplay, eliminating stuttering or lag caused by slower access to data from the main memory.
Importance of a 265MB L3 Cache
The 265MB L3 cache featured in the HPE 3.2 GHz AMD Epyc 24-core Processor is especially notable for its size and capacity. It provides an ample amount of space for storing frequently accessed data and instructions, resulting in improved performance across various computing tasks and workloads. Whether you're a professional working with resource-intensive applications or a gamer seeking a seamless gaming experience, the large cache size of this processor ensures optimal performance and efficiency.
Part Number
The HPE 3.2 GHz AMD Epyc 24-core Processor is identified by its unique part number, P38705-B21. This alphanumeric code serves as a crucial identifier for users, allowing them to easily identify and procure the specific processor model they require. Understanding the significance of the part number is essential for efficient procurement and compatibility considerations.
The Role of Part Numbers
Part numbers play a vital role in the world of technology and hardware, serving as unique identifiers for individual components or products. They enable manufacturers, suppliers, and users to differentiate between various models, configurations, and versions, ensuring accurate selection and compatibility.
Easy Identification
With a vast range of processors available in the market, identifying the exact model you need can be challenging without a clear reference. The part number, P38705-B21, simplifies this process significantly. By using the specified part number, you can quickly locate and purchase the exact processor model required for your specific use case.
Compatibility Assurance
Another important aspect of part numbers is their role in ensuring compatibility. Manufacturers often release multiple versions or revisions of a particular product. These revisions may include changes in specifications, features, or even physical form factors. By referring to the part number, you can verify whether the processor you are considering is compatible with your existing hardware or infrastructure. This compatibility assurance helps prevent compatibility issues and ensures seamless integration into your system.
Procurement Efficiency
For businesses and organizations involved in procurement processes, part numbers streamline the procurement cycle. When requesting quotes or placing orders with suppliers, using the specific part number ensures accurate identification of the desired product. This eliminates confusion and potential errors that may arise from vague descriptions or incomplete specifications.
The Significance of P38705-B21
The part number P38705-B21 is specifically assigned to the HPE 3.2 GHz AMD Epyc 24-core Processor model, making it a vital identifier for users seeking this specific processor variant. By leveraging this unique part number, users can effortlessly locate and procure this processor variant with confidence in its compatibility and adherence to desired specifications.
In conclusion, the cache feature with its 265MB L3 size is a significant advantage of the HPE 3.2 GHz AMD Epyc 24-core Processor. It offers improved processing speed, reduced memory latency, enhanced multi-threaded performance, optimized virtualization performance, and an improved gaming experience. Additionally, the part number, P38705-B21, is crucial for easy identification, compatibility assurance, and procurement efficiency. Understanding and utilizing these features and identifiers are essential for users seeking a powerful and efficient processor that meets their specific requirements.