HPE 879577-B21 Xeon Silver 4116 2.1GHz 16.5MB L3 Cache 9.6GT/S UPI Speed Socket FCLGA3647 14NM 85W Processor

Speed

The HP Xeon 12-core silver 4116 processor boasts an impressive clock speed of 2.1GHz. This feature plays a crucial role in determining the performance and efficiency of the processor.

Enhanced Processing Power

With a clock speed of 2.1GHz, this processor offers exceptional processing power. The higher the clock speed, the faster the processor can execute instructions and perform calculations. This means that tasks requiring heavy computational power, such as data analysis, rendering complex graphics, or running resource-intensive applications, can be completed more swiftly and efficiently.

Improved Responsiveness

The high clock speed of the HP Xeon 12-core silver 4116 processor ensures a snappy and responsive user experience. Applications launch quickly, and multitasking becomes seamless, allowing users to effortlessly switch between various tasks without experiencing any lag or delay.

Smooth Gaming Experience

Gamers will appreciate the benefits of the 2.1GHz clock speed in this processor. It enables smooth gameplay by ensuring that the processor can handle demanding game engines and deliver responsive graphics rendering. This means fewer stutters, improved frame rates, and an overall immersive gaming experience.

Faster Data Processing

Data-intensive tasks, such as video editing or scientific simulations, can significantly benefit from the 2.1GHz clock speed. The processor's ability to quickly process large volumes of data enhances productivity and reduces the time required to complete complex calculations or analyses.

Efficient Virtualization

Virtualization is a key feature for businesses and individuals who rely on running multiple operating systems or software environments simultaneously. The 2.1GHz clock speed of this HP Xeon processor ensures efficient virtualization performance, allowing for seamless operation of virtual machines without compromising overall system responsiveness.

Energy Efficiency

Despite its high clock speed, the HP Xeon 12-core silver 4116 processor strikes a balance between performance and energy efficiency. It is designed to deliver powerful performance while minimizing power consumption. This not only reduces electricity costs but also contributes to a greener and more sustainable computing environment.

Cache

The HP Xeon 12-core silver 4116 processor features an impressive 16.5MB L3 cache. This cache plays a vital role in improving the processor's performance and overall system responsiveness.

Quick Access to Frequently Used Data

The large 16.5MB L3 cache allows the processor to store frequently accessed data closer to the cores, reducing the time required to fetch information from the main memory. This significantly improves overall system responsiveness and minimizes latency, as the processor can quickly access the data it needs without relying solely on slower memory access.

Efficient Data Handling

The ample cache size enables the HP Xeon 12-core silver 4116 processor to efficiently handle large amounts of data. This is particularly beneficial for tasks that involve heavy data manipulation, such as database management or scientific simulations. The processor can quickly retrieve and process data from the cache, resulting in faster data handling and reduced processing times.

Enhanced Multitasking

The generous cache size also enhances multitasking capabilities. When running multiple applications simultaneously, each application can store its frequently accessed data in the cache, minimizing the need for constant retrieval from memory. This ensures smooth multitasking performance and allows users to switch between applications seamlessly.

Improved Instruction Execution

With a larger cache, the HP Xeon 12-core silver 4116 processor can store more instructions, reducing the need for frequent instruction fetches from memory. This results in improved instruction execution speed and overall system performance.

Optimized Virtualization Performance

Virtualization environments heavily rely on efficient memory management. The 16.5MB L3 cache of this processor enables better virtual machine performance by reducing the overhead associated with memory access. This ensures smooth operation of virtualized environments and enhances overall system efficiency.

Reduced Power Consumption

The large cache size in the HP Xeon 12-core silver 4116 processor also contributes to improved energy efficiency. By storing frequently accessed data closer to the cores, the processor can reduce the frequency of memory accesses, resulting in lower power consumption and increased energy savings.

Socket

The HP Xeon 12-core silver 4116 processor features an FCLGA3647 socket. The socket type is an essential consideration when selecting a processor, as it determines compatibility with motherboards and influences system performance and expandability.

Compatibility and Upgradability

The FCLGA3647 socket ensures compatibility with specific motherboard models designed to support this socket type. It provides users with flexibility in choosing compatible motherboards that suit their specific requirements. Additionally, this socket allows for future upgrades, ensuring longevity and scalability for users who may want to enhance their system's performance in the future.

Processor Stability

The robust design of the FCLGA3647 socket ensures a secure connection between the processor and the motherboard. This stability is crucial for optimal performance and reliability, as it prevents any potential issues caused by loose or faulty connections.

Support for Advanced Features

The FCLGA3647 socket is designed to support advanced features offered by high-performance processors such as the HP Xeon 12-core silver 4116. These features may include support for multiple cores, high-speed memory interfaces, or enhanced security technologies. By utilizing a compatible socket, users can take full advantage of these advanced features, maximizing their system's capabilities.

Expandability and Scalability

The FCLGA3647 socket allows for expandability and scalability, making it an ideal choice for users who anticipate future system upgrades or expansions. As technology advances and newer processors become available, users can easily replace the existing processor with a newer model compatible with the FCLGA3647 socket, providing a cost-effective and efficient way to improve system performance.

Optimized Performance

By utilizing the FCLGA3647 socket, users can ensure that their HP Xeon 12-core silver 4116 processor operates at its optimal performance level. The socket is designed to provide a direct and efficient connection between the processor and the motherboard, minimizing latency and maximizing data transfer rates. This translates into improved overall system performance and responsiveness.

Easy Installation

The FCLGA3647 socket is designed for easy installation, enabling users to effortlessly install or replace their HP Xeon 12-core silver 4116 processor. The socket features clear markings and alignment notches, ensuring correct orientation during installation. This user-friendly design eliminates potential installation errors and facilitates hassle-free upgrades or replacements.

Nm

The HP Xeon 12-core silver 4116 processor is built using a 14nm manufacturing process technology. The nm (nanometer) measurement refers to the size of the transistors used in the processor's fabrication. The nm feature has significant implications for the processor's performance, power efficiency, and overall capabilities.

Enhanced Performance

The 14nm manufacturing process allows for the creation of smaller transistors within the processor. Smaller transistors enable more transistors to be packed onto the same silicon die, increasing the processing power of the HP Xeon 12-core silver 4116. This results in improved performance, as more transistors can execute instructions simultaneously, enhancing the processor's ability to handle demanding tasks.

Improved Energy Efficiency

The 14nm manufacturing process contributes to the processor's energy efficiency. Smaller transistors require less power to operate, reducing overall power consumption. This results in energy savings and a more environmentally friendly computing experience. Additionally, the reduced power consumption leads to less heat generation, which can enhance system stability and longevity.

Higher Transistor Density

The 14nm manufacturing process enables a higher transistor density within the HP Xeon 12-core silver 4116 processor. The increased number of transistors allows for more complex circuits and improved integration of various components. This increased transistor density enhances the processor's capabilities, enabling it to handle advanced technologies and perform complex tasks with greater efficiency.

Compatibility with Advanced Technologies

The 14nm manufacturing process aligns the HP Xeon 12-core silver 4116 processor with the latest technological advancements. Processors built using this technology are designed to support cutting-edge features and technologies, such as advanced instruction sets, virtualization enhancements, or improved security mechanisms. This ensures that users can take advantage of the latest innovations available in the market.

Future-Proofing

By adopting a processor with a 14nm manufacturing process, users can future-proof their systems to some extent. As technology continues to evolve, processors built using the 14nm process are likely to remain relevant for an extended period. This provides users with a longer lifespan for their systems before requiring major upgrades, offering a cost-effective solution while maintaining competitive performance.

Overclocking Potential

The 14nm manufacturing process often enables better overclocking capabilities. Overclocking refers to increasing the clock speed beyond the processor's default specifications to achieve higher performance levels. The smaller transistors and improved power efficiency achieved through the 14nm process contribute to better heat dissipation, allowing for more headroom when pushing the processor's performance limits through overclocking.

Power

The HP Xeon 12-core silver 4116 processor operates at a power level of 85W. The power consumption of a processor is a crucial factor to consider, as it directly affects energy efficiency, system cooling requirements, and overall operational costs.

Energy Efficiency

The 85W power consumption of the HP Xeon 12-core silver 4116 processor reflects its high energy efficiency. By consuming less power, the processor reduces electricity costs and contributes to a more eco-friendly computing environment. This is particularly beneficial for businesses or individuals running multiple servers or high-performance systems, where energy savings can translate into significant financial advantages over time.

Cooling Requirements

The 85W power consumption establishes a manageable thermal profile for the HP Xeon 12-core silver 4116 processor. The lower power consumption results in less heat generation during operation, reducing the strain on cooling systems and decreasing the need for elaborate cooling solutions. This can lead to quieter operation, improved system stability, and reduced maintenance efforts.

Balance of Performance and Power

The 85W power level strikes a balance between performance and power efficiency. It allows the HP Xeon 12-core silver 4116 processor to deliver powerful computing capabilities while keeping power consumption within reasonable limits. This makes it an ideal choice for users who require high-performance computing without compromising on energy efficiency.

Reduced Carbon Footprint

The lower power consumption of the HP Xeon 12-core silver 4116 processor contributes to a reduced carbon footprint. By consuming less electricity, users can minimize their environmental impact and promote sustainability. This is particularly important for organizations committed to green initiatives or individuals who prioritize eco-friendly computing practices.

Longer Lifespan

The power-efficient design of the HP Xeon 12-core silver 4116 processor enhances its overall lifespan. The lower power consumption reduces stress on the processor's components, resulting in less wear and tear over time. This can extend the longevity of the processor, allowing users to enjoy stable and reliable performance for an extended period before needing to replace or upgrade their system.

Cost Savings

The 85W power consumption of the HP Xeon 12-core silver 4116 processor translates into cost savings over its lifespan. Lower power consumption leads to reduced electricity bills, especially for systems that run continuously or for extended periods. The long-term financial benefits, combined with the processor's high-performance capabilities, make it a wise investment for both businesses and individual users.