HPE 872011-B21 Intel Xeon Silver 4116 12 Core Processor

Core Count: 12

The HPE Xeon Silver 4116 Processor is equipped with a powerful core count of 12, making it an excellent choice for users who require high-performance computing capabilities. With 12 cores, this processor can handle multiple tasks simultaneously, allowing for improved multitasking and faster processing speeds.

Improved Multitasking

One of the biggest advantages of having a higher core count is the ability to handle multiple tasks simultaneously. With 12 cores, the HPE Xeon Silver 4116 Processor can efficiently distribute workload across its cores, ensuring that each task is executed efficiently and without any performance bottlenecks. This is particularly beneficial for users who work with resource-intensive applications or perform tasks that require heavy multitasking, such as video editing or 3D rendering.

Faster Processing Speeds

The increased core count also translates into faster processing speeds. With more cores available, the HPE Xeon Silver 4116 Processor can execute instructions in parallel, significantly reducing the time required to complete complex calculations or data processing tasks. This means that users can experience improved overall system performance and reduced waiting times for tasks to be completed.

Optimized Performance for Server Applications

The HPE Xeon Silver 4116 Processor's 12 cores make it an ideal choice for server applications. Servers often handle multiple requests simultaneously, and the high core count ensures that each request can be processed efficiently without causing performance degradation. Whether it's running virtual machines or hosting web applications, this processor's core count allows for smooth and responsive server performance.

Enhanced Virtualization Capabilities

Virtualization technology has become increasingly important in modern computing environments. With 12 cores, the HPE Xeon Silver 4116 Processor can support a larger number of virtual machines, allowing for better utilization of server resources. This means that users can run more virtualized workloads on a single server, leading to improved efficiency and cost savings.

Improved Database Performance

Databases often require high-performance computing capabilities to handle complex queries and large datasets. The 12 cores of the HPE Xeon Silver 4116 Processor ensure that database applications can execute queries and process data quickly, resulting in faster response times and improved overall database performance.

Seamless Workstation Performance

For users who rely on their workstations for resource-intensive tasks such as CAD/CAM or scientific simulations, the 12 cores of the HPE Xeon Silver 4116 Processor provide the necessary processing power to handle these demanding workloads. Users can experience smoother and more responsive performance, allowing them to work more efficiently and effectively.

Base Clock Speed: 2.1GHz

The HPE Xeon Silver 4116 Processor features a base clock speed of 2.1GHz, providing users with a solid foundation for reliable and efficient computing performance. The base clock speed represents the frequency at which the processor operates under normal conditions, and it plays a crucial role in determining the overall performance of the system.

Stable System Operation

A higher base clock speed ensures that the processor can handle everyday tasks with ease. The 2.1GHz base clock speed of the HPE Xeon Silver 4116 Processor allows for smooth system operation, preventing performance bottlenecks and ensuring that applications run efficiently without any noticeable lag or delays.

Faster Single-Threaded Performance

In addition to supporting multitasking with its high core count, the HPE Xeon Silver 4116 Processor's 2.1GHz base clock speed enhances single-threaded performance. Single-threaded tasks, such as web browsing or word processing, rely on the performance of a single core. With a higher base clock speed, these tasks can be executed more quickly and responsively, improving the overall user experience.

Improved Responsiveness in Gaming

Gaming enthusiasts will appreciate the 2.1GHz base clock speed of the HPE Xeon Silver 4116 Processor. It provides a solid foundation for gaming performance, ensuring that games load quickly and run smoothly. The higher base clock speed allows for faster rendering of graphics and more responsive gameplay, enhancing the overall gaming experience.

Efficient Video Editing and Rendering

Video editing and rendering tasks require significant processing power to handle large video files and complex effects. The 2.1GHz base clock speed of the HPE Xeon Silver 4116 Processor ensures that these tasks can be completed efficiently and without any noticeable delays. Users can expect faster video rendering times and smoother editing workflows, saving valuable time and improving productivity.

Seamless Multimedia Playback

Whether it's streaming high-definition videos or playing demanding multimedia content, the HPE Xeon Silver 4116 Processor's 2.1GHz base clock speed ensures seamless playback without any buffering or stuttering. Users can enjoy high-quality multimedia content without any performance issues, providing an immersive entertainment experience.

Smooth Web Browsing Experience

The 2.1GHz base clock speed of the HPE Xeon Silver 4116 Processor enables fast and responsive web browsing. Users can open multiple tabs, load complex web pages, and perform online tasks without experiencing any slowdowns or lag. This ensures a smooth and efficient web browsing experience, allowing users to quickly access information and complete online tasks.

L3 Cache: 16.5MB

The HPE Xeon Silver 4116 Processor features an L3 cache size of 16.5MB, which plays a critical role in improving system performance and efficiency. The L3 cache acts as a high-speed storage area for frequently accessed data, reducing the need to retrieve data from slower main memory or storage devices.

Faster Data Access

The larger L3 cache size of 16.5MB allows the HPE Xeon Silver 4116 Processor to store more data closer to the cores, reducing the time required to access frequently used information. This results in faster data retrieval and improved system responsiveness, especially when executing tasks that heavily rely on accessing and manipulating large datasets.

Reduced Memory Latency

By storing frequently accessed data in the L3 cache, the HPE Xeon Silver 4116 Processor reduces the latency associated with retrieving data from main memory. This means that data can be accessed more quickly, resulting in improved overall system performance and reduced waiting times for data-intensive operations.

Improved Application Performance

The larger L3 cache size of 16.5MB allows applications to store more data in a faster and more accessible location. This results in improved application performance as it reduces the time required for the processor to access critical data. Applications that heavily rely on data access, such as databases or scientific simulations, can benefit greatly from the larger L3 cache size.

Enhanced Gaming Performance

Gamers can experience improved performance with the HPE Xeon Silver 4116 Processor's 16.5MB L3 cache. The larger cache size reduces the time required to load game data, such as textures and models, resulting in faster game load times and smoother gameplay. Gamers can enjoy more immersive and responsive gaming experiences with reduced lag and stuttering.

Faster Compilation Times for Developers

Software developers often compile large codebases, which require frequent access to various code files and libraries. The 16.5MB L3 cache size of the HPE Xeon Silver 4116 Processor allows for faster compilation times by keeping frequently accessed code and data close to the cores. This results in more efficient software development workflows with reduced waiting times.

Improved Virtual Machine Performance

Virtualized environments can benefit from the larger L3 cache size of the HPE Xeon Silver 4116 Processor. With more cache available, virtual machines can store frequently accessed data closer to the cores, reducing latency and improving overall virtual machine performance. This allows for better utilization of server resources and enhanced responsiveness in virtualized environments.

Upi Speed: 9.6GT/s

The Upi Speed of the HPE Xeon Silver 4116 Processor is 9.6GT/s, which stands for Gigatransfers per second. Upi Speed represents the speed at which the processor communicates with other components or processors in a multi-processor system, ensuring efficient data transfer and synchronization.

Enhanced Multi-Processor System Performance

The Upi Speed of 9.6GT/s enables smooth communication between multiple processors in a system. In multi-processor configurations, such as servers or high-performance workstations, efficient communication is crucial for achieving optimal system performance. The high Upi Speed ensures that data can be transferred quickly between processors, minimizing latency and maximizing overall system throughput.

Improved Scalability

Multi-processor systems benefit from the high Upi Speed of the HPE Xeon Silver 4116 Processor as it allows for improved scalability. When additional processors are added to a system, the high Upi Speed ensures that data can be efficiently synchronized and shared between the processors, enabling seamless parallel processing and better utilization of resources.

Optimized Memory Access

The Upi Speed also plays a role in optimizing memory access in multi-processor systems. With a higher Upi Speed, the HPE Xeon Silver 4116 Processor can quickly access data from shared memory, reducing latency and improving overall system performance. This is particularly beneficial in applications that rely on frequent memory access, such as database servers or scientific simulations.

Improved Virtual Machine Performance

Virtualized environments can benefit from the high Upi Speed of the HPE Xeon Silver 4116 Processor. The efficient communication between processors ensures that virtual machines can quickly access shared resources and synchronize data, resulting in improved overall virtual machine performance. This allows for better resource allocation and enhanced responsiveness in virtualized environments.

Seamless High-Performance Computing

High-performance computing (HPC) applications often require multiple processors to work together efficiently. The high Upi Speed of 9.6GT/s enables seamless communication between processors in HPC clusters, allowing for efficient parallel processing and improved performance. Users can experience faster simulations, data analysis, and scientific computations with reduced waiting times.

Efficient Data Processing in Server Environments

In server environments, efficient data processing is crucial for handling multiple requests simultaneously. The high Upi Speed of the HPE Xeon Silver 4116 Processor ensures that data can be transferred quickly between processors, enabling efficient workload distribution and improved overall server performance. This is particularly important in applications that require real-time data processing, such as financial transactions or online gaming.

Socket Type: FCLGA3647

The HPE Xeon Silver 4116 Processor features the FCLGA3647 socket type, which stands for Flip-Chip Land Grid Array 3647. The socket type is an important consideration when choosing a compatible motherboard for the processor, as it determines the physical and electrical connections between the processor and the motherboard.

Wide Compatibility with Server Motherboards

The FCLGA3647 socket type is widely supported by server motherboards, making the HPE Xeon Silver 4116 Processor a versatile choice for various server configurations. Server administrators can easily find compatible motherboards that provide the necessary features and performance capabilities for their specific requirements.

Scalability and Future Upgrades

The FCLGA3647 socket type supports high-end server processors, allowing for scalability and future upgrades. Users can start with the HPE Xeon Silver 4116 Processor and later upgrade to more powerful processors without needing to replace the entire motherboard. This provides flexibility and cost savings in the long term, ensuring that the server can meet evolving computing needs.

Robust Electrical Connections

The FCLGA3647 socket type features a robust electrical connection between the processor and the motherboard. This ensures reliable data transmission and power delivery, minimizing the risk of connectivity issues or performance degradation. Users can have confidence in the stability and longevity of their server systems.

Support for Server Features

The FCLGA3647 socket type enables support for various server features, such as multiple memory channels, high-speed interconnects, and advanced management capabilities. Server motherboards designed for the FCLGA3647 socket type often include features that enhance server performance, efficiency, and manageability, providing users with a comprehensive server solution.

Enhanced Server Reliability

The robust electrical connections of the FCLGA3647 socket type contribute to enhanced server reliability. A secure and stable connection between the processor and the motherboard minimizes the risk of intermittent issues or system failures, ensuring uninterrupted operation even in demanding server environments.

Optimized Cooling Solutions

The FCLGA3647 socket type allows for optimized cooling solutions to be implemented. Many server motherboards designed for this socket type incorporate advanced cooling features, such as multiple fan headers or dedicated heat sinks, to efficiently dissipate heat generated by high-performance processors. This helps maintain optimal operating temperatures and prolongs the lifespan of both the processor and the motherboard.

Manufacturing Technology: 14NM

The HPE Xeon Silver 4116 Processor is manufactured using a 14nm (nanometer) process technology. The manufacturing technology refers to the size of transistors and other components on the processor's integrated circuit. A smaller manufacturing technology provides several benefits in terms of performance, power efficiency, and heat dissipation.

Improved Performance

The 14nm manufacturing technology allows for more transistors to be packed into a smaller space on the processor's integrated circuit. This results in increased transistor density, which translates into improved performance. With more transistors available, the HPE Xeon Silver 4116 Processor can execute instructions more quickly and handle complex calculations with ease.

Power Efficiency

A smaller manufacturing technology enables power-efficient operation. When transistors are smaller, less power is required to switch them on or off. This means that the HPE Xeon Silver 4116 Processor can deliver high performance while consuming less power, resulting in reduced energy costs and a smaller carbon footprint.

Heat Dissipation

The 14nm manufacturing technology also contributes to efficient heat dissipation. Smaller transistors generate less heat when in operation, reducing the need for extensive cooling solutions. This allows for quieter operation and potentially lower cooling costs, especially in server environments where multiple processors are deployed.

Enhanced Overclocking Potential

The 14nm manufacturing technology enhances the potential for overclocking. Overclocking refers to increasing the clock speed of a processor beyond its specified limits to achieve higher performance. With a smaller manufacturing technology, the HPE Xeon Silver 4116 Processor can handle higher clock speeds while maintaining stability and reliability, providing enthusiasts with the opportunity to push their systems to the limit.

Improved Power Management

The 14nm manufacturing technology allows for more advanced power management features. Processors manufactured using this technology can dynamically adjust their power consumption based on workload demands, ensuring efficient power usage and prolonging battery life in mobile devices. This is particularly important for users who rely on their devices for extended periods without access to a power source.

Compatibility with Modern Technologies

The HPE Xeon Silver 4116 Processor's 14nm manufacturing technology ensures compatibility with modern technologies and standards. It allows for the integration of advanced features and capabilities that enhance system performance and enable support for cutting-edge technologies, such as virtualization, encryption, or machine learning.

Power Consumption: 85W

The HPE Xeon Silver 4116 Processor has a power consumption of 85W, which refers to the amount of electrical power it requires to operate under typical conditions. Power consumption is an important consideration as it directly impacts energy efficiency, operating costs, and cooling requirements.

Energy Efficiency

The 85W power consumption of