HPE P10938-B21 Xeon Silver 4208 8 Core 9.6GT/S 11MB Smart Cache
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SKU/MPN | Warranty | Price | Condition | You save |
---|---|---|---|---|
P10938-B21 | Six-Month (180 Days) | $1,179.00 | Factory-Sealed New in Original Box (FSB) | You save: $578.03 (33%) |
P10938-B21 | Six-Month (180 Days) | $446.00 | New (System) Pull | You save: $245.20 (35%) |
Core Count: 8
The HPE Xeon Silver 4208 Processor boasts a remarkable core count of 8, making it a powerful and efficient choice for a wide range of computing needs. In this section, we will explore the benefits and importance of this feature, highlighting how it enhances performance, multitasking capabilities, and overall efficiency.
Product Overview
Type and Model
The product in focus is a server processor, identified by the part number P10938-B21. It is known as the Silver 4208 model.
Core Specifications
- Core Count: 8 cores
- Base Clock Speed: 2.1 GHz
- Turbo Boost Frequency: Up to 3.2 GHz
- Ultrapath Interconnect (UPI) Speed: 9.6 GT/s
- UPI Links: 2
- Instruction Set: 64-bit
- Instruction Set Extensions: Intel® AVX-512
Cache and Lithography Details
Cache Memory
The processor includes an 11 MB Smart Cache, designed to enhance performance by providing quick access to frequently used data.
Manufacturing Process
Constructed using a 14 nm lithography process, this processor ensures efficient power usage and effective thermal management.
Thermal and Power Specifications
Thermal Design Power (TDP)
The maximum TDP for this processor is 85 watts, reflecting its power consumption and thermal dissipation characteristics.
Socket Compatibility
This processor is compatible with the FCLGA3647 socket, making it suitable for various server setups.
Memory Compatibility and Performance
Memory Capacity and Speed
- Maximum Memory Size: Up to 1 TB (dependent on memory type)
- Memory Types Supported: DDR4-2400
- Maximum Memory Speed: 2.4 GHz
- Number of Memory Channels: 6
ECC Support
The processor supports ECC memory to ensure data integrity and system reliability, which is essential for critical applications.
Enhanced Performance
The 8-core design of the HPE Xeon Silver 4208 Processor provides a significant boost in performance compared to processors with lower core counts. Each core acts as an individual processing unit that can handle multiple tasks simultaneously. This allows for faster data processing and improved overall system performance.
With eight cores at your disposal, you can effortlessly run resource-intensive applications such as virtual machines, complex simulations, and data analysis software. The increased core count ensures that each application receives dedicated processing power, resulting in faster and smoother operations.
Efficient Multitasking
Multitasking has become an essential aspect of modern computing, and the HPE Xeon Silver 4208 Processor excels in this area. The 8-core architecture allows you to effortlessly switch between multiple applications without experiencing any noticeable lag or slowdown.
For professionals who rely on their computers for demanding tasks such as video editing, 3D rendering, or software development, the ability to run multiple programs simultaneously is crucial. The 8-core design of this processor ensures that you can seamlessly work on multiple projects at once, enhancing productivity and efficiency.
Improved Responsiveness
In addition to enhanced performance and multitasking capabilities, the HPE Xeon Silver 4208 Processor's 8-core design contributes to improved system responsiveness. The additional cores enable faster data access and retrieval, resulting in quicker response times for applications and reduced loading times for files and documents.
Whether you're working on complex spreadsheets, editing high-resolution images, or playing graphics-intensive games, the 8-core architecture ensures that your system responds swiftly to your commands. This level of responsiveness enhances user experience and minimizes frustration caused by delays or lag.
Optimized Workflows
The 8-core design of the HPE Xeon Silver 4208 Processor is particularly beneficial for professionals who rely on specialized software or engage in tasks that require significant computational power. For example, designers working on CAD/CAM projects, scientists performing complex simulations, or engineers running intricate analyses can greatly benefit from the increased core count.
The additional cores enable these professionals to execute their tasks more efficiently, reducing processing times and allowing for faster iterations. This ultimately leads to improved workflow optimization and increased productivity.
Bus Speed: 9.6GT/S
The bus speed of a processor plays a crucial role in determining how quickly data can be transferred between the processor and other components of a computer system. The HPE Xeon Silver 4208 Processor boasts an impressive bus speed of 9.6GT/S, providing several benefits that enhance overall system performance and responsiveness.
High-Speed Data Transfer
The 9.6GT/S bus speed of the HPE Xeon Silver 4208 Processor ensures rapid data transfer between the processor and various system components, such as memory modules and storage devices. This high-speed data transfer capability translates into faster overall system performance.
When running resource-intensive applications or working with large files, a faster bus speed enables quicker data access and retrieval. This means reduced loading times for applications and files, resulting in a more efficient and productive computing experience.
Improved System Responsiveness
A higher bus speed contributes to improved system responsiveness by reducing the time it takes for data to travel between the processor and other components. This results in faster execution of commands and quicker response times for applications.
For tasks that require real-time interaction or quick data processing, such as gaming or multimedia editing, a higher bus speed is essential. It ensures that your system responds swiftly to your commands, minimizing any delays or lag and providing a smooth and seamless user experience.
Enhanced Scalability
The 9.6GT/S bus speed of the HPE Xeon Silver 4208 Processor also enhances system scalability. It allows for efficient data transfer and communication between multiple processors in a multi-socket configuration.
In scenarios where high-performance computing is required, such as scientific research or data analysis, the ability to scale up the computational power by connecting multiple processors can significantly enhance overall processing capabilities. The high bus speed ensures that data flows seamlessly between the processors, enabling efficient parallel processing and improved performance.
Cache Size: 11MB
The cache size of a processor plays a vital role in improving overall system performance by providing faster access to frequently used instructions and data. The HPE Xeon Silver 4208 Processor boasts a generous cache size of 11MB, offering several benefits that enhance computational efficiency and responsiveness.
Faster Data Access
The larger cache size of 11MB in the HPE Xeon Silver 4208 Processor allows for faster data access compared to processors with smaller caches. The cache acts as a temporary storage space located closer to the processor, enabling quicker retrieval of frequently accessed instructions and data.
When running applications or performing tasks that involve repeated access to the same instructions or data, the larger cache size minimizes the time required to fetch them from main memory. This results in improved overall system performance and reduced latency.
Reduced Bottlenecks
A larger cache size helps reduce bottlenecks in data access and retrieval processes. When the cache is unable to store all frequently accessed instructions and data, the processor needs to fetch them from main memory, which is significantly slower.
With an 11MB cache size, the HPE Xeon Silver 4208 Processor can store a larger portion of frequently accessed instructions and data, reducing the need for frequent access to main memory. This minimizes potential bottlenecks and ensures smoother and more efficient data processing.
Enhanced Multitasking
The larger cache size of the HPE Xeon Silver 4208 Processor also enhances multitasking capabilities. When running multiple applications simultaneously, each application requires access to its own set of instructions and data.
With a larger cache, the processor can store a greater number of frequently accessed instructions and data from multiple applications. This allows for faster context switching between applications, resulting in improved multitasking performance and overall system responsiveness.
Socket Type: P10938-B21
The socket type of a processor determines its physical compatibility with a motherboard. The HPE Xeon Silver 4208 Processor features the P10938-B21 socket type, offering several benefits and importance for users seeking a high-performance and reliable computing solution.
Flexible Upgrade Path
By utilizing the P10938-B21 socket type, the HPE Xeon Silver 4208 Processor ensures compatibility with a wide range of motherboards that support this socket. This provides users with a flexible upgrade path, enabling them to seamlessly transition to newer generations of processors without replacing their entire system.
As technology evolves and new processors are released, being able to upgrade to the latest models while retaining existing components can be highly cost-effective. The P10938-B21 socket type allows users to future-proof their systems and take advantage of advancements in processing power without incurring significant additional expenses.
Reliability and Stability
The P10938-B21 socket type is designed to provide a secure and stable connection between the processor and the motherboard. It ensures a reliable electrical connection, minimizing the risk of data corruption or system instability.
Reliability and stability are crucial factors in any computing environment, particularly for business users or professionals who rely on their systems for mission-critical tasks. The P10938-B21 socket type offers peace of mind, ensuring that the HPE Xeon Silver 4208 Processor remains securely and consistently connected to the motherboard, even under heavy workloads.
Industry Standard
The P10938-B21 socket type is widely recognized as an industry-standard socket type, ensuring compatibility with a broad range of motherboards from various manufacturers. This makes it easier for users to find compatible motherboards or upgrade their existing systems without compatibility issues.
The industry-standard nature of the P10938-B21 socket type also contributes to its long-term viability. As this socket type is widely adopted, manufacturers are more likely to continue supporting it by releasing new processors with the same socket type, ensuring a steady supply of compatible components in the future.
In conclusion, the HPE Xeon Silver 4208 Processor's 8-core design, 9.6GT/S bus speed, 11MB cache size, and P10938-B21 socket type offer significant benefits and importance for users seeking high-performance computing solutions. The 8-core architecture enhances performance, multitasking capabilities, and overall efficiency. The high bus speed enables high-speed data transfer, improved system responsiveness, and enhanced scalability. The generous cache size ensures faster data access, reduced bottlenecks, and enhanced multitasking. The P10938-B21 socket type provides a flexible upgrade path, reliability, stability, and compatibility with a wide range of motherboards. By understanding and leveraging these features, users can optimize their computing experience and meet their demanding requirements effectively.