Description
Product overview for the HPE P38714-B21
In the fast-paced world of server technology, staying ahead of the curve is essential for businesses and data centers. One such innovation that has garnered attention is the HPE P38714-B21 2.85GHz AMD EPYC 7443P Processor. This processor boasts impressive specifications, including a 24-core architecture, a 128MB L3 cache, and a power-efficient 7nm design. In this comprehensive review, we’ll delve into the key features, performance capabilities, and benefits of the HPE P38714-B21 processor, designed specifically for server applications.
Key Features of the HPE P38714-B21 ProcessorClock Speed and Core Architecture
The HPE P38714-B21 processor operates at an impressive 2.85GHz clock speed, making it suitable for handling demanding server workloads. With a 24-core architecture, it provides a robust foundation for multitasking and parallel processing, crucial for modern server environments.
AMD EPYC 7443P Architecture
At the heart of this processor lies the AMD EPYC 7443P architecture. AMD’s EPYC processors are renowned for their performance, reliability, and scalability. The 7443P model, in particular, is designed to meet the needs of data center and server applications, delivering optimal computing power.
128MB L3 Cache
The generous 128MB L3 cache of the HPE P38714-B21 processor plays a pivotal role in enhancing data access speeds. With a larger cache, the processor can store more frequently accessed data, reducing latency and improving overall system responsiveness.
Socket SP3 Compatibility
The processor utilizes the Socket SP3, ensuring compatibility with server platforms that support this socket type. This compatibility is crucial for seamless integration into existing server infrastructures, providing an upgrade path for businesses looking to enhance their server capabilities.
7nm Technology
The HPE P38714-B21 processor employs advanced 7nm manufacturing technology. This not only contributes to energy efficiency but also allows for more transistors to be packed into a smaller space, improving overall performance and reducing power consumption.
200W Power Consumption
Efficiency is a key consideration in data center environments. With a power consumption of 200W, the HPE P38714-B21 strikes a balance between performance and energy efficiency, making it suitable for a variety of server applications.
Performance and Scalability:Multithreading and Parallel Processing
The 24-core design of the AMD EPYC 7443P processor enables efficient multithreading and parallel processing. This is particularly beneficial for applications that can leverage multiple cores simultaneously, enhancing overall system performance and responsiveness.
Server Workload Optimization
Designed specifically for server applications, the HPE P38714-B21 processor excels in optimizing server workloads. Whether it’s handling virtualization, databases, or complex computations, this processor is engineered to deliver the performance required by modern data centers.
Scalability for Growing Needs
Scalability is a critical factor for businesses anticipating future growth. The HPE P38714-B21 processor, with its 24-core configuration, provides scalability to accommodate increasing workloads. This scalability is essential for businesses that need a flexible and future-proof server solution.
Enhanced Virtualization Performance
Virtualization is a key aspect of modern server environments. The HPE P38714-B21 processor, with its 24 cores and efficient architecture, enhances virtualization performance. This is particularly advantageous for businesses running multiple virtual machines on a single server.
Benefits and Use Cases
Improved Server Efficiency
The HPE P38714-B21 processor’s combination of clock speed, core count, and cache size contributes to improved server efficiency. Tasks are processed more quickly, and the server can handle a higher number of concurrent processes, leading to enhanced overall efficiency.
Optimized for Data-Intensive Applications
Businesses dealing with data-intensive applications such as big data analytics, machine learning, and scientific simulations will find the HPE P38714-B21 processor well-suited to their needs. The robust 24-core architecture and large L3 cache make it capable of handling demanding computational workloads.
Cost-Effective Upgrade Path
For organizations looking to upgrade their existing server infrastructure, the HPE P38714-B21 processor offers a cost-effective solution. Its compatibility with Socket SP3 ensures a straightforward upgrade process, allowing businesses to benefit from enhanced performance without a complete system overhaul.
Energy-Efficient Data Centers
The 7nm technology and 200W power consumption of the HPE P38714-B21 processor contribute to energy efficiency in data center operations. This is a crucial consideration for businesses aiming to reduce their carbon footprint and operational costs.
General Information about the HPE P38714-B21
- Manufacturer: HPE
- Model Number or SKU# P38714-B21
- Type: Processor
- Product Type: Epyc 24-core
Technical Specifications for the 2.85 GHz Epyc 24-core Processor
- Processor Core: 24 cores
- Clock Speed: 2.85 GHz
- Max Boost Clock: Up to 4.0 GHz
Cache Memory Details
- L3 Cache: 128 MB
Other Specifications
- Lithography: 7nm
- Max Thermal Design Power (TDP): 200W
- Compatible Processor Socket: SP3
In general, the HPE P38714-B21 2.85GHz AMD EPYC 7443P Processor stands out as a powerful and efficient solution for server applications. With its impressive specifications, including a 24-core architecture, 128MB L3 cache, and compatibility with Socket SP3, it addresses the evolving needs of data centers and businesses requiring robust server performance. Whether it’s optimizing server workloads, enhancing virtualization, or accommodating future growth, this processor offers a compelling combination of features for server enthusiasts and IT professionals alike. As technology continues to advance, the HPE P38714-B21 processor represents a noteworthy option for those seeking a reliable and scalable solution in the dynamic landscape of server technology.