Description
Product Overview of the HPE P26689-B21 AMD EPYC 7H12 Processor
The HPE P26689-B21 houses the AMD EPYC 7H12 Processor, a powerhouse CPU designed explicitly for server-grade applications. Featuring an impressive 64 cores with a base frequency of 2.6 Gigahertz (GHz), an extensive 256 Megabytes (MB) of Layer3 (L3) cache, utilizing the SP3 socket, and constructed on the advanced 7-nanometer (7NM) architecture, this processor delivers immense computing power for handling intensive workloads in server environments.
Understanding Processor Core Count, Cache, and Architecture
Processors consist of cores responsible for executing instructions. Higher core counts allow simultaneous handling of multiple tasks, ideal for parallel workloads. Additionally, cache, such as the L3 cache, stores frequently accessed data for quick retrieval, enhancing overall performance. The 7-nanometer architecture signifies the processor’s advanced design, ensuring efficiency and performance gains.
Features of HPE P26689-B21 AMD EPYC 7H12 Processor64 Cores
The processor boasts an impressive 64 cores, enabling it to execute numerous tasks concurrently, making it suitable for highly parallel workloads.
Base Frequency of 2.6 GHz
Operating at a base frequency of 2.6 GHz, this processor ensures substantial clock speeds for quick and efficient command execution.
Large 256 MB L3 Cache
The extensive 256 MB L3 cache facilitates rapid access to frequently used data, minimizing latency and enhancing overall performance.
Socket SP3
Utilizes the SP3 socket, ensuring compatibility with server-grade motherboards tailored to accommodate high-end processors.
7NM Architecture
Built on the advanced 7-nanometer architecture, optimizing power efficiency and enhancing performance compared to larger process nodes.
Importance of High-Performance Processors in Server Environments
High-performance processors offer several advantages in server environments:
Intensive Workload Handling
Processors like the EPYC 7H12 can manage complex and resource-intensive tasks, making them ideal for data center applications.
Efficiency and Performance
Efficient processors contribute to reduced processing time and optimized server performance, enhancing overall efficiency.
Scalability and Adaptability
Servers powered by high-performance processors offer scalability to accommodate evolving workloads, ensuring adaptability.
Benefits of Using HPE P26689-B21 AMD EPYC 7H12 ProcessorMultitasking Capabilities
With 64 cores, the processor supports the simultaneous execution of multiple tasks, ideal for highly parallel server applications.
Enhanced Clock Speed
A base frequency of 2.6 GHz ensures swift execution of instructions, contributing to efficient data processing.
Performance Boost with Cache
The vast 256 MB L3 cache enables quick access to frequently used data, optimizing overall system performance.
Use Cases for HPE P26689-B21 AMD EPYC 7H12 ProcessorData-Intensive Applications
Perfect for data-intensive applications such as big data analytics, handling large datasets efficiently and swiftly.
Virtualization and Cloud Computing
Suitable for virtualization and cloud computing environments, it provides substantial processing power for multiple virtual machines.
High-Performance Computing (HPC)
In high-performance computing scenarios like scientific simulations and complex calculations, this processor ensures reliable and efficient performance.
General Information about this HPE P26689-B21
- Manufacturer: HPE
- Part Number or SKU# P26689-B21
- Product Type: Server Processor
- Product Model: Epyc 7H12
Technical Information
- Processor Core: 64-core
- Clock Speed: 2.6 GHz
- Max Boost Clock: Up to 3.3 GHz
Cache Memory Details
- L3 Cache: 256 MB
Other Specifications
- Lithography: 7nm
- Max Thermal Design Power (TDP): 280 W
- Compatible Processor Socket: SP3
In summary, the HPE HPE P26689-B21 AMD EPYC 7H12 Processor, featuring 64 cores, a base frequency of 2.6 GHz, an extensive 256 MB L3 cache, utilizing the SP3 socket, and built on the advanced 7-nanometer architecture, stands as a powerful solution for high-performance computing in server environments. Its multitasking capabilities, high clock speed, and significant cache contribute to efficient and reliable performance, making it an excellent choice for data-intensive applications, virtualization, cloud computing, and high-performance computing tasks. AMD’s commitment to powerful and efficient processors positions the EPYC 7H12 as a compelling option for demanding computing needs within server infrastructures.