HPE P38699-B21 AMD EPYC 8-Core Processor 3.7GHz 72F3 256MB L3 Cache

Clock Speed

What is Clock Speed?

Clock Speed refers to the rate at which a processor can execute instructions per second. It is measured in Hertz (Hz) and determines the speed at which a computer can process data. The higher the clock speed, the faster the processor can perform tasks.

The AMD EPYC 8-Core Processor's Impressive 3.7GHz Clock Speed

The AMD EPYC 8-Core Processor boasts a clock speed of 3.7GHz, making it a powerful choice for users who require lightning-fast processing capabilities. With this clock speed, the processor can swiftly execute instructions, resulting in seamless multitasking and enhanced overall performance.

Benefits of the 3.7GHz Clock Speed

1. Enhanced Productivity

The high clock speed of the AMD EPYC 8-Core Processor allows users to accomplish tasks more quickly and efficiently. Whether you're running resource-intensive applications, compiling code, or rendering complex graphics, the 3.7GHz clock speed ensures that processes are completed swiftly, enabling you to be more productive.

2. Smooth Multitasking

Multitasking becomes a breeze with the AMD EPYC 8-Core Processor's high clock speed. You can seamlessly switch between multiple applications without experiencing any lag or slowdowns. This is particularly beneficial for professionals who need to run numerous demanding programs simultaneously.

3. Improved Gaming Performance

Gamers will appreciate the AMD EPYC 8-Core Processor's 3.7GHz clock speed as it ensures smooth gameplay and quick response times. The high clock speed allows for rapid rendering of graphics, resulting in an immersive gaming experience without any stuttering or frame drops.

4. Reduced Rendering Time

For professionals in industries like animation, video editing, and 3D modeling, rendering time plays a crucial role in workflow efficiency. The 3.7GHz clock speed of the AMD EPYC 8-Core Processor significantly reduces rendering time, allowing you to complete projects faster and meet tight deadlines.

Part Number

Understanding Part Numbers

Part numbers are alphanumeric codes used to identify specific products or components. They help users easily identify and locate the exact item they need for their specific requirements. In the case of the AMD EPYC 8-Core Processor, the part number is P38699-B21.

The Significance of P38699-B21

The part number P38699-B21 is specifically assigned to the AMD EPYC 8-Core Processor, providing users with a unique identifier for this particular model. Understanding the significance of this part number allows users to make informed decisions when selecting the processor for their system.

Benefits of P38699-B21

1. Accurate Identification

With the part number P38699-B21, users can accurately identify and select the AMD EPYC 8-Core Processor from among various other processors available in the market. This ensures that you choose the correct model that meets your specific needs and compatibility requirements.

2. Convenient Replacement

In case of processor replacement or upgrade, having the part number P38699-B21 simplifies the process. You can easily search for and purchase the exact same model without any confusion or compatibility issues. This saves time and eliminates potential errors when swapping out processors.

3. Compatibility Assurance

The part number P38699-B21 also helps ensure compatibility with other hardware components of your system. By referring to this specific part number, you can confirm that the processor is designed to work seamlessly with your motherboard and other peripherals, guaranteeing optimal performance and stability.

4. Product Documentation and Support

When seeking product documentation, support, or troubleshooting assistance, providing the part number P38699-B21 to the manufacturer or support team allows them to access specific information related to your processor. This enables them to deliver accurate and targeted assistance, ensuring a smoother resolution process.

Cache Size

Understanding Cache Size

Cache size refers to the amount of memory located on a processor package that is dedicated to storing frequently accessed data. It acts as a high-speed buffer between the processor and main memory, reducing latency and improving overall system performance.

The 256MB L3 Cache Size Advantage

The AMD EPYC 8-Core Processor features an impressive 256MB L3 cache size, which provides significant advantages for users in terms of data access speed and system responsiveness.

Benefits of the 256MB L3 Cache Size

1. Faster Data Access

A larger cache size allows the processor to store more frequently accessed data, reducing the time it takes to retrieve information from the main memory. With a 256MB L3 cache, the AMD EPYC 8-Core Processor can quickly access data, resulting in faster execution of instructions and improved overall system responsiveness.

2. Improved Application Performance

Applications that heavily rely on data access, such as databases and content creation software, can greatly benefit from the large cache size of the AMD EPYC 8-Core Processor. The ample cache space allows for efficient data retrieval, enhancing application performance and reducing processing bottlenecks.

3. Seamless Virtualization

Virtualization environments often require rapid data access across multiple virtual machines running simultaneously. The 256MB L3 cache size of the AMD EPYC 8-Core Processor ensures smooth and efficient virtual machine operations by minimizing data retrieval latency, resulting in enhanced virtualization performance.

4. Reduced Memory Latency

With a larger cache size, the AMD EPYC 8-Core Processor reduces the need for frequent data access from the main memory, thereby decreasing memory latency. This results in improved system performance, particularly in memory-intensive tasks such as video editing, scientific simulations, and complex calculations.

Socket Type

Understanding Socket Type

Socket type refers to the physical connection between a processor and its corresponding motherboard. It determines the compatibility between the processor and the motherboard, ensuring proper communication and functionality.

The Importance of 72F3 Socket Type

The AMD EPYC 8-Core Processor utilizes the 72F3 socket type, a key feature that ensures seamless integration with compatible motherboards, enabling users to take full advantage of its capabilities.

Benefits of 72F3 Socket Type

1. Easy Compatibility

The 72F3 socket type guarantees compatibility between the AMD EPYC 8-Core Processor and motherboards designed to support this socket. This simplifies the selection process for users, making it easier to find compatible hardware components that work together seamlessly.

2. Scalability and Future Upgrades

By using the 72F3 socket type, users can benefit from the scalability offered by the AMD EPYC platform. This socket type allows for future upgrades to higher core count processors within the same socket infrastructure, providing room for expansion and ensuring longevity for your system.

3. Enhanced Communication Speed

The 72F3 socket type facilitates high-speed communication between the AMD EPYC 8-Core Processor and the motherboard. This enables efficient data transfer, ensuring that the processor can fully utilize the capabilities of the system's memory, storage, and peripherals.

4. Increased Reliability and Stability

Using the correct socket type, such as 72F3, ensures a secure and stable connection between the processor and motherboard. This helps prevent compatibility issues, performance bottlenecks, or system instability that may arise from using mismatched components. The result is a reliable and stable system for uninterrupted productivity.