Intel Xeon Silver 4116 12-Core BX806734116 Processor

Core Count: 12

The Intel Xeon Silver 4116 Processor is equipped with an impressive core count of 12, making it a powerful choice for a wide range of applications. With a higher number of cores, this processor can handle multiple tasks simultaneously, allowing for faster and more efficient performance. Whether you're running complex simulations, analyzing big data sets, or running virtual machines, the 12-core configuration ensures that your workload is distributed evenly across the processor, resulting in improved overall performance.

Increased Multitasking Capability

One of the primary benefits of having 12 cores is the increased multitasking capability. Each core can handle a separate task, meaning that you can run multiple resource-intensive applications simultaneously without experiencing significant slowdowns. This is particularly beneficial for professionals who require high computing power to perform tasks such as video editing, 3D rendering, or scientific simulations.

Efficient Virtualization

Virtualization is becoming increasingly popular in various industries, allowing businesses to maximize their server resources by running multiple virtual machines. With 12 cores, the Intel Xeon Silver 4116 Processor offers excellent support for virtualization. Each core can be allocated to a separate virtual machine, ensuring optimal performance and reducing the risk of resource contention.

Improved Gaming Performance

The higher core count also translates into improved gaming performance. Many modern games are designed to take advantage of multi-core processors, and with 12 cores at your disposal, you can enjoy smoother gameplay and faster frame rates. Additionally, the extra cores allow for better background multitasking while gaming, such as streaming or running voice chat applications.

Base Clock Speed: 2.1GHz

The base clock speed of the Intel Xeon Silver 4116 Processor is 2.1GHz. While this may seem relatively low compared to some consumer-grade processors, it is important to note that the Xeon series is designed for different purposes. The lower clock speed allows for better energy efficiency and thermal management, making it an ideal choice for server environments where stability and reliability are paramount.

Improved Energy Efficiency

A lower base clock speed contributes to improved energy efficiency. By operating at a lower frequency, the processor consumes less power, resulting in reduced energy costs and a smaller carbon footprint. This is especially crucial for data centers and server farms that require high-performance computing while still prioritizing energy conservation.

Better Thermal Management

The reduced clock speed also helps with better thermal management. Lower clock speeds generate less heat, allowing the processor to operate within a comfortable temperature range without the need for excessive cooling solutions. This is particularly important for systems that run continuously or under heavy workloads, as it minimizes the risk of overheating and ensures stable performance over extended periods.

Reliable 24/7 Operation

The 2.1GHz base clock speed contributes to the processor's ability to handle continuous operation without compromising reliability. By operating at a lower frequency, the processor experiences less stress, resulting in improved longevity and reduced risk of failures or unexpected downtime. This makes the Intel Xeon Silver 4116 Processor an excellent choice for mission-critical applications that require uninterrupted operation.

Cache: 16.5MB L3

The Intel Xeon Silver 4116 Processor features a generous 16.5MB L3 cache, which plays a crucial role in enhancing overall performance by reducing memory access latency and improving data retrieval speeds. With a larger cache size, this processor can store frequently accessed data closer to the cores, minimizing the need to access slower main memory.

Reduced Memory Latency

A larger cache helps to minimize memory latency, which is the time it takes for the processor to retrieve data from the main memory. By storing frequently accessed data in the cache, the processor can access it much faster, resulting in significantly reduced latency. This is especially beneficial for applications that heavily rely on memory access, such as databases or scientific simulations.

Improved Data Retrieval Speeds

The larger cache size allows for improved data retrieval speeds. With more data readily available in the cache, the processor can quickly access the required information without having to wait for it to be fetched from the main memory. This results in faster overall performance and a more responsive computing experience, particularly when dealing with large datasets or complex computations.

Enhanced Performance for Multithreaded Applications

The 16.5MB L3 cache is particularly advantageous for multithreaded applications that can take advantage of the processor's multiple cores. Each core can access its dedicated portion of the cache, ensuring minimal contention and maximizing performance. This is especially important in scenarios where multiple threads are accessing and manipulating large amounts of data simultaneously.

Upi Speed: 9.6GT/S

The Intel Xeon Silver 4116 Processor boasts an Upi Speed of 9.6GT/S, which stands for Gigatransfers per second. UPI (Ultra Path Interconnect) is a high-speed interconnect technology used in multi-socket systems to facilitate communication between processors. The higher Upi Speed contributes to improved scalability and performance in multi-processor configurations.

Enhanced Scalability

With a Upi Speed of 9.6GT/S, the Intel Xeon Silver 4116 Processor can effectively handle communication between multiple processors in a system. This is particularly important for systems that require high scalability, such as large-scale databases or virtualized environments. The higher Upi Speed ensures that data can be passed between processors quickly and efficiently, minimizing bottlenecks and maximizing overall performance.

Optimized Multi-Processor Performance

The Upi Speed directly impacts the performance of multi-processor systems. A higher Upi Speed allows for faster communication between processors, reducing latency and improving overall system responsiveness. This is especially crucial for applications that heavily rely on inter-processor communication, such as distributed computing or parallel processing.

Improved Workload Distribution

The 9.6GT/S Upi Speed enables efficient workload distribution across multiple processors. In multi-processor configurations, tasks can be divided among the processors, ensuring that each processor receives an equal share of the workload. This results in improved parallelism and faster task execution times, making the Intel Xeon Silver 4116 Processor an excellent choice for high-performance computing environments.

Socket Type: FCLGA3647

The Intel Xeon Silver 4116 Processor utilizes the FCLGA3647 socket type, which stands for Flip-Chip Land Grid Array 3647. The FCLGA3647 socket is specifically designed to support high-performance server processors and offers several benefits in terms of compatibility, performance, and scalability.

Wide Compatibility

The FCLGA3647 socket type ensures wide compatibility with various server motherboards and systems. It is a standard socket used by many server manufacturers, making it easier to find compatible hardware components. Whether you're upgrading an existing server or building a new system from scratch, the FCLGA3647 socket provides a reliable and widely supported platform.

Support for High-Performance Processors

The FCLGA3647 socket is specifically designed to accommodate high-performance server processors, such as the Intel Xeon Silver 4116. It offers robust power delivery capabilities and a large number of pins to support the processor's advanced features and power requirements. This ensures optimal performance and stability, even under heavy workloads or demanding applications.

Scalability for Future Upgrades

The FCLGA3647 socket type provides excellent scalability for future upgrades. As technology advances and newer processors are released, you can easily replace the Intel Xeon Silver 4116 Processor with a more powerful model without changing the entire motherboard or system. This scalability allows for cost-effective upgrades and ensures that your server can keep up with evolving computing demands.

Manufacturing Technology: 14nm

The Intel Xeon Silver 4116 Processor is built using a 14nm manufacturing technology. The manufacturing process refers to the size of the transistors used to build the processor, with smaller transistors offering several advantages in terms of power efficiency, performance, and heat dissipation.

Improved Power Efficiency

A 14nm manufacturing process enables improved power efficiency compared to larger processes. Smaller transistors require less power to switch, resulting in reduced energy consumption. This translates into lower operating costs and reduced heat generation, making the processor more environmentally friendly and suitable for energy-conscious environments.

Enhanced Performance

The 14nm manufacturing technology allows for more transistors to be packed into a smaller space on the processor die. This increased transistor density contributes to enhanced performance by providing more processing power within the same physical footprint. The additional transistors enable better feature integration and improved instruction execution, resulting in faster overall performance.

Effective Heat Dissipation

The smaller transistors in a 14nm manufacturing process dissipate heat more effectively than larger transistors. The reduced size allows for better thermal management, ensuring that the processor operates within safe temperature limits even under heavy workloads. This results in improved reliability and longevity, as excessive heat can degrade the performance and lifespan of a processor.

Power Consumption: 85W

The Intel Xeon Silver 4116 Processor has a power consumption of 85W, which refers to the amount of power it requires to operate under typical conditions. The lower power consumption is beneficial for various reasons, including reduced energy costs, thermal management, and environmental impact.

Reduced Energy Costs

A lower power consumption of 85W translates into reduced energy costs over the long term. By consuming less power, the processor contributes to overall energy savings, making it an economical choice for organizations that operate multiple servers or systems. Additionally, lower energy consumption aligns with sustainable business practices and reduces the carbon footprint associated with computing operations.

Improved Thermal Management

The 85W power consumption allows for better thermal management within server environments. Lower power consumption generates less heat, reducing the strain on cooling systems and minimizing the risk of overheating. This is particularly important in densely populated server racks or data centers where efficient thermal management is crucial for maintaining stable and reliable operation.

Environmentally Friendly

Opting for a processor with lower power consumption contributes to environmental sustainability. By reducing energy usage and carbon emissions, businesses can minimize their ecological impact and operate more responsibly. The Intel Xeon Silver 4116 Processor's power-efficient design aligns with green computing initiatives and can help organizations achieve their environmental goals.