Intel Xeon Silver 4216 BX806954216 16 Core 2.1GHz Processor

Core Count: 16

Improved Performance

The Intel Xeon Silver 4216 Processor boasts an impressive core count of 16, making it an excellent choice for users who require high-performance computing. With more cores, the processor can handle multiple tasks simultaneously, resulting in improved overall performance.

Enhanced Multitasking

Thanks to its 16 cores, this processor excels at multitasking. Whether you're running resource-intensive applications, virtual machines, or performing complex calculations, the increased number of cores ensures smooth and efficient task execution without any noticeable slowdown.

Increased Productivity

The 16-core configuration of the Intel Xeon Silver 4216 Processor allows for greater productivity in various professional applications such as video editing, 3D rendering, and scientific simulations. Users can expect faster processing times and reduced waiting periods, resulting in more time for other important tasks.

Optimized Server Performance

In server environments, where multiple users access the system simultaneously, having a higher core count is crucial. The Intel Xeon Silver 4216 Processor's 16 cores ensure efficient resource allocation and improved server responsiveness, leading to better user experience and increased server efficiency.

Hyper-Threading Technology

In addition to the 16 physical cores, this processor also supports Intel's Hyper-Threading technology. This means that each physical core can handle two threads simultaneously, effectively doubling the number of available threads. This feature further enhances multitasking capabilities and boosts overall system performance.

Virtualization Support

The 16 cores of the Intel Xeon Silver 4216 Processor make it an ideal choice for virtualization purposes. Virtual machines require dedicated processing power to deliver seamless performance, and the abundance of cores ensures that each VM receives the necessary resources.

Smooth Gaming Experience

While primarily designed for professional use, the high core count of this processor can also benefit gamers. Many modern games utilize multiple cores to distribute the workload, and having 16 cores allows for smoother gameplay, reduced stuttering, and improved frame rates.

Choosing the Right Software

To fully leverage the power of the Intel Xeon Silver 4216 Processor's 16 cores, it is essential to use software that is optimized for parallel processing. Applications specifically designed to take advantage of multiple cores will deliver the best performance and ensure that all cores are utilized effectively.

Future-Proofing

Investing in a processor with a high core count like the Intel Xeon Silver 4216 Processor ensures future-proofing for upcoming software advancements. As more applications and operating systems are developed to take advantage of multiple cores, having 16 cores will become increasingly beneficial.

Base Clock Speed: 2.1GHz

Efficient Task Execution

The Intel Xeon Silver 4216 Processor's base clock speed of 2.1GHz plays a vital role in ensuring efficient task execution. The base clock speed determines the frequency at which the processor operates under normal conditions, providing a solid foundation for all computing tasks.

Power Management

The base clock speed directly influences power consumption and heat generation. By starting at a conservative speed of 2.1GHz, the processor can effectively manage power consumption while delivering optimal performance when needed. This feature is especially important in energy-efficient systems or data centers with strict power requirements.

Boost Technology

In addition to the base clock speed, the Intel Xeon Silver 4216 Processor also supports Intel Turbo Boost Technology. This feature dynamically adjusts the clock speed based on workload demands, allowing the processor to operate at higher frequencies when necessary. With Turbo Boost, the processor can reach speeds beyond its base clock, ensuring exceptional performance when required.

Single-Threaded Performance

The base clock speed is particularly important for single-threaded tasks that rely on a single CPU core. In such scenarios, the 2.1GHz base clock ensures that the processor has a solid starting point, providing fast and responsive performance for applications that cannot effectively utilize multiple cores.

Stability and Reliability

A conservative base clock speed of 2.1GHz contributes to the stability and reliability of the Intel Xeon Silver 4216 Processor. By operating within a controlled frequency range, the processor can maintain optimal temperatures and reduce the risk of overheating or system instability.

Heat Dissipation

The base clock speed directly influences heat dissipation. With a lower starting frequency, the processor generates less heat during normal operation, allowing cooling systems to effectively manage and dissipate heat. This feature is particularly important in systems with limited cooling capabilities or in environments with high ambient temperatures.

Workload Distribution

It is worth noting that while the base clock speed is vital for overall performance, certain tasks may benefit more from higher turbo frequencies. Understanding your specific workload requirements will help determine whether the base clock speed or turbo frequencies are more crucial to achieving optimal performance.

Balancing Power and Performance

The 2.1GHz base clock speed strikes a balance between power consumption and performance. It ensures that the processor operates efficiently without sacrificing too much power or generating excessive heat. This balance is essential for users who require a reliable and energy-efficient solution without compromising on performance.

Smart Cache: 22MB

Improved Data Access

The Intel Xeon Silver 4216 Processor's smart cache size of 22MB plays a vital role in improving data access speeds. The cache acts as a high-speed memory buffer that stores frequently accessed data, reducing the time it takes for the processor to retrieve information from the main memory.

Reduced Memory Latency

With a larger smart cache, the processor can store more data closer to the CPU cores, significantly reducing memory latency. This results in faster data retrieval and improved overall system responsiveness, particularly in applications that rely heavily on accessing large amounts of data.

Improved Application Performance

The smart cache size directly impacts application performance by ensuring that critical data is readily available to the CPU cores. By storing frequently used instructions and data in the cache, the processor can quickly access this information, resulting in faster application execution and reduced processing times.

Seamless Multitasking

The larger smart cache of the Intel Xeon Silver 4216 Processor allows for improved multitasking capabilities. With more cache available, the processor can store data from multiple applications simultaneously, preventing frequent data swaps between the main memory and cache. This leads to smoother multitasking performance and enhanced user experience.

Virtual Machine Performance

In virtualized environments, where multiple virtual machines share system resources, a larger smart cache becomes even more critical. Each virtual machine requires quick access to its respective data, and a larger cache ensures that each VM receives the necessary resources without excessive swapping or delays.

Boosting Gaming Performance

Gaming enthusiasts can benefit from the Intel Xeon Silver 4216 Processor's smart cache size as well. Many modern games rely on quick data access, and a larger cache helps reduce loading times and improve in-game performance. This leads to smoother gameplay, reduced stuttering, and increased immersion.

Cache Associativity

Certain applications and workloads may benefit from specific cache associativity configurations. Understanding the cache associativity of the Intel Xeon Silver 4216 Processor can help optimize performance for specific tasks. Consult the processor's specifications or relevant documentation for more information.

Cache Coherency

In multi-processor systems, maintaining cache coherency is crucial to avoid data inconsistencies. The Intel Xeon Silver 4216 Processor's smart cache ensures proper coherency protocols are in place, guaranteeing that all CPU cores have access to the most up-to-date data.

UPI Speed: 9.6GT/s

Enhanced Interconnect Performance

The Intel Xeon Silver 4216 Processor's UPI (Ultra Path Interconnect) speed of 9.6GT/s improves interconnect performance between multiple processors or sockets. UPI provides high-speed links that enable efficient communication and data transfer between different components of a system.

Scalability and Flexibility

The high UPI speed allows for greater scalability and flexibility in multi-processor systems. It enables seamless integration of multiple processors or sockets, allowing for increased processing power and improved system performance. This feature is particularly beneficial in server environments or high-performance computing clusters.

Reduced Latency

A higher UPI speed results in reduced latency when accessing data across multiple processors or sockets. This is crucial for tasks that require frequent inter-component communication, such as distributed computing or data-intensive applications. The reduced latency ensures efficient data transfer and minimizes processing delays.

Improved Memory Bandwidth

The UPI speed directly impacts memory bandwidth in multi-processor systems. With a higher UPI speed of 9.6GT/s, the processors can communicate with the memory subsystem more quickly and efficiently, resulting in improved overall memory performance. This is particularly important in memory-intensive applications or virtualized environments.

Load Balancing

The UPI speed plays a significant role in load balancing across multiple processors or sockets. It enables efficient distribution of computational tasks, ensuring that each processor receives an equal share of the workload. This load balancing improves overall system performance and prevents bottlenecks caused by uneven task distribution.

Faster Data Sharing

In systems with multiple processors or sockets, the high UPI speed facilitates faster data sharing between different components. This is especially important in distributed computing environments where data needs to be exchanged rapidly between nodes. The increased speed ensures efficient data synchronization and collaboration.

System Architecture Considerations

When utilizing multiple processors or sockets, it is crucial to consider the system architecture and design. Ensuring proper compatibility and configuration is essential to fully leverage the benefits of the Intel Xeon Silver 4216 Processor's UPI speed. Consult relevant documentation or seek professional guidance for optimal system integration.

Scalability Planning

The 9.6GT/s UPI speed allows for future scalability and expansion. When designing a system, consider potential future requirements and ensure that the chosen processor can support the necessary interconnect speeds to accommodate future upgrades or additions.

Socket Type: FCLGA3647

Compatibility and Flexibility

The Intel Xeon Silver 4216 Processor utilizes the FCLGA3647 socket type, providing compatibility and flexibility for various server and workstation platforms. FCLGA3647 is a standard socket type that supports a range of processors, making it easier to find compatible hardware and ensuring future upgrade options.

Server-Grade Reliability

The FCLGA3647 socket type is primarily designed for server-grade processors like the Intel Xeon Silver 4216. These processors are built to handle demanding workloads and offer enhanced reliability and stability. By using the FCLGA3647 socket, users can benefit from the robustness and performance expected in server environments.

Expanded Memory Capacity

The FCLGA3647 socket supports multiple memory channels, enabling expanded memory capacity for demanding applications. This is especially advantageous in memory-intensive tasks such as virtualization or data analysis, where large amounts of RAM are required to achieve optimal performance.

Memory Performance

The FCLGA3647 socket's support for multiple memory channels improves memory performance by allowing for increased data transfer rates. With more memory channels available, the Intel Xeon Silver 4216 Processor can effectively utilize the available memory bandwidth, resulting in improved overall system performance.

Flexible Platform Selection

Choosing a processor with the FCLGA3647 socket type provides flexibility when selecting a platform. Various motherboard manufacturers offer options that cater to different requirements, ensuring that users can find a suitable platform for their specific needs. This flexibility extends to server configurations as well.

Ease of Maintenance

The FCLGA3647 socket type simplifies CPU installation and maintenance. Its standardized design ensures straightforward replacement or upgrading of processors without requiring extensive reconfiguration. This feature is particularly important in server environments where minimizing downtime and ensuring quick hardware replacement is crucial.

Socket Compatibility

Although FCLGA3647 is a widely supported socket type, it is essential to verify compatibility with specific motherboards or server systems. Consult the motherboard manufacturer's documentation or seek professional advice to ensure proper compatibility and optimal performance.

Choosing the Right Motherboard

When selecting a motherboard for the Intel Xeon Silver 4216 Processor, consider factors such as memory support, expansion slots, and additional features required for your specific use case. Choosing a high-quality motherboard that meets your needs will ensure optimal performance and longevity.

Manufacturing Technology: 14nm

Efficiency and Performance

The Intel Xeon Silver 4216 Processor is manufactured using the 14nm process technology, which offers a balance between efficiency and performance. The 14nm process allows for the creation of smaller transistors, resulting in improved energy efficiency and higher transistor density.

Power Efficiency

The 14nm manufacturing technology significantly contributes to the power efficiency of the processor. Smaller transistors consume less power, allowing the Intel Xeon Silver 4216 to deliver high performance while minimizing energy consumption. This feature is especially important in environments where power efficiency is a priority.

Increased Transistor Density

The 14nm process enables higher transistor density on the processor die. This increase in density allows for more transistors to be packed into a smaller area, resulting in improved processing power and overall performance. The higher transistor count facilitates faster data processing and enhances the capabilities of the processor.

Improved Thermal Management

The smaller transistors produced by the 14nm process generate less heat during operation, leading to improved thermal management. This allows cooling systems to operate more efficiently, keeping the processor within optimal temperature ranges and reducing the risk of overheating or thermal throttling.

Advanced Features Integration

The 14nm manufacturing technology enables the integration of advanced features and enhancements into the Intel Xeon Silver 4216 Processor. The smaller transistors provide more space for additional components, allowing for the inclusion of features like Hyper-Threading, Turbo Boost, and robust security capabilities.

Future-Proofing

Opting for a processor manufactured using the 14nm process technology ensures future-proofing to some extent. As newer technologies and manufacturing processes continue to evolve, having a processor with a higher transistor density will ensure compatibility with upcoming software advancements and technological innovations.

Performance Comparisons

When comparing processors, it is essential to consider factors beyond just the manufacturing technology. The overall architecture, core count, cache size, and clock speeds are equally important in determining performance. Consider a holistic approach when evaluating processors to ensure optimal performance for your specific use case.

Power Consumption Considerations

While the 14nm process technology contributes to power efficiency, it is essential to consider power consumption holistically when designing a system. Other factors such as workload, cooling solutions, and system components can impact power consumption. Properly assessing power requirements will help optimize energy usage and maintain system stability.

Power Consumption: 100W

Energy Efficiency

The Intel Xeon Silver 4216 Processor's power consumption of 100W strikes a balance between performance and energy efficiency. This feature ensures that the processor operates optimally while minimizing electricity consumption, making it an excellent choice for those seeking energy-efficient solutions.

Reduced Operating Costs

The lower power consumption directly translates to reduced operating costs. By choosing a processor