Intel Xeon Silver 4210R Processor BX806954210R 2.4GHz 13.75MB Cache 9.6GT/S UPI Speed Socket Fclga3647 14NM 100W

Core Count: 10

The Intel Xeon Silver 4210R Processor is equipped with 10 cores, making it an exceptionally powerful and efficient processor for a wide range of applications. The core count refers to the number of independent processing units within the CPU, and having more cores allows for greater multitasking capabilities and improved overall performance.

Increased Performance

With 10 cores, the Intel Xeon Silver 4210R Processor can handle multiple tasks simultaneously, resulting in faster and more efficient performance. This is especially beneficial for users who engage in resource-intensive activities such as video editing, 3D rendering, and running virtual machines.

By distributing workloads across multiple cores, each core can focus on a specific task, eliminating bottlenecks and reducing processing time. This leads to enhanced productivity and smoother operation, even when dealing with demanding applications or multitasking with numerous programs running simultaneously.

Improved Responsiveness

A higher core count translates to improved system responsiveness, as each core can handle individual tasks independently. This means that even during heavy workloads, the Intel Xeon Silver 4210R Processor can maintain a high level of responsiveness, ensuring minimal lag or delays.

Whether you are gaming, editing videos, or running complex simulations, the 10-core configuration allows for seamless multitasking without sacrificing performance. This is particularly advantageous for professionals who rely on their computer's responsiveness to meet deadlines or execute critical tasks efficiently.

Enhanced Parallel Processing

Parallel processing refers to the ability to execute multiple tasks simultaneously. The greater the number of cores, the more parallel processing power a processor possesses. With 10 cores, the Intel Xeon Silver 4210R Processor excels in parallel computing tasks.

This feature is particularly beneficial for data scientists, engineers, and researchers who work on computationally intensive tasks. Tasks such as data analysis, machine learning, and scientific simulations can be executed more efficiently with the increased parallel processing capabilities offered by the 10-core configuration.

Base Clock Speed: 2.4GHz

The base clock speed of the Intel Xeon Silver 4210R Processor is set at 2.4GHz. The clock speed refers to the frequency at which the processor can execute instructions per second. Higher clock speeds generally result in faster performance and improved overall system responsiveness.

Faster Single-Threaded Performance

While having multiple cores is crucial for multitasking and parallel processing, the base clock speed plays a significant role in single-threaded tasks that cannot be split across multiple cores. Single-threaded tasks rely on a single core to execute instructions, and a higher base clock speed allows for faster execution.

Tasks such as gaming, web browsing, and general office applications often rely on single-threaded performance. With a base clock speed of 2.4GHz, the Intel Xeon Silver 4210R Processor provides excellent performance in these types of tasks, ensuring smooth and responsive user experience.

Efficient Multithreaded Performance

Although the base clock speed is crucial for single-threaded tasks, it also affects multithreaded performance to some extent. Multithreaded tasks are those that can be divided across multiple cores, enabling parallel execution.

The Intel Xeon Silver 4210R Processor's base clock speed of 2.4GHz ensures efficient multithreaded performance by providing a solid foundation for each core's operation. This allows the processor to handle multitasking scenarios effectively, ensuring smooth performance even when executing resource-intensive applications.

Overclocking Potential

For users who seek even higher performance levels, the base clock speed also serves as a reference point for potential overclocking. Overclocking refers to manually increasing the clock speed beyond the base frequency to achieve higher performance.

Although overclocking may void warranties and require additional cooling solutions, it can result in significant performance boosts for users who require maximum processing power. The 2.4GHz base clock speed of the Intel Xeon Silver 4210R Processor provides a solid starting point for potential overclocking endeavors.

Cache: 13.75MB

The Intel Xeon Silver 4210R Processor features a cache size of 13.75MB, which plays a crucial role in improving overall system performance by reducing memory latency and enhancing data access speeds.

Faster Data Access

The cache acts as a high-speed memory buffer located closer to the CPU cores, enabling faster access to frequently used data and instructions. With a cache size of 13.75MB, the Intel Xeon Silver 4210R Processor can store a significant amount of data closer to the cores, minimizing the need to fetch data from slower main memory.

This results in faster execution times for tasks that rely heavily on accessing data from memory, such as database queries, scientific simulations, and content creation applications. The larger cache allows for quicker retrieval of data, reducing processing time and improving overall system responsiveness.

Reduced Memory Latency

Memory latency refers to the time it takes for the CPU to access data from system memory. With larger caches, such as the 13.75MB cache featured in the Intel Xeon Silver 4210R Processor, the processor can store more data closer to the cores, reducing the need for frequent access to system memory.

This reduction in memory latency leads to improved performance and reduced waiting times, as the CPU can quickly retrieve data from the cache instead of waiting for it to be fetched from main memory. This is particularly advantageous for applications that rely on real-time data processing or require fast access to large datasets.

Optimized Workloads

The cache size directly impacts how efficiently the CPU can execute different types of workloads. With a larger cache, the Intel Xeon Silver 4210R Processor can store more instructions and data, allowing it to better predict and prefetch the required information for upcoming tasks.

This predictive capability improves the overall efficiency of the processor, as it can preemptively load data into the cache before it is needed. As a result, commonly accessed information is readily available, reducing processing time and improving overall performance across a wide range of applications and workloads.

Bus Speed: 9.6GT/s

The bus speed, measured in gigatransfers per second (GT/s), refers to the rate at which data can be transferred between different components within a computer system. The Intel Xeon Silver 4210R Processor boasts a bus speed of 9.6GT/s, ensuring efficient communication between the CPU and other system components.

Improved System Responsiveness

A higher bus speed allows for faster communication between the processor and other components such as memory, storage devices, and expansion cards. This results in improved system responsiveness and reduced latency when accessing or transferring data.

Tasks such as loading large files, accessing databases, and running data-intensive applications can benefit significantly from the increased bus speed provided by the Intel Xeon Silver 4210R Processor. The faster data transfer rates enhance overall performance and ensure smooth operation even under high-demand scenarios.

Enhanced Multi-GPU Performance

The bus speed also plays a crucial role in multi-GPU configurations, where multiple graphics processing units (GPUs) work in parallel to deliver enhanced graphics performance. A higher bus speed allows for faster communication between the CPU and GPUs, reducing potential bottlenecks and ensuring efficient data transfer.

Users who engage in tasks such as gaming, 3D modeling, or video editing that heavily rely on multi-GPU setups can benefit from the Intel Xeon Silver 4210R Processor's high bus speed. The improved communication between the CPU and GPUs results in smoother frame rates, reduced input lag, and overall improved graphical performance.

Future-Proofing

As technology continues to advance, the demand for faster data transfer speeds will only increase. By investing in a processor with a high bus speed like the Intel Xeon Silver 4210R, users can future-proof their systems to some extent.

Higher bus speeds ensure compatibility with upcoming technologies and components that may require higher bandwidth. This allows users to upgrade their system without being limited by slower data transfer rates, ensuring that their system remains capable of handling future advancements in hardware technology.

Socket Type: Fclga3647

The socket type of a processor refers to the physical interface between the CPU and the motherboard. The Intel Xeon Silver 4210R Processor utilizes the Fclga3647 socket type, which is specifically designed for high-performance server and workstation applications.

Server-Grade Performance

The Fclga3647 socket type is primarily used in server environments where reliability, scalability, and performance are of utmost importance. The Intel Xeon Silver 4210R Processor, with its Fclga3647 socket compatibility, offers server-grade performance and capabilities.

Server applications such as virtualization, cloud computing, and database management require powerful processors that can handle heavy workloads and deliver consistent performance. The Fclga3647 socket type ensures compatibility with server motherboards designed to support these demanding tasks.

Scalability and Expandability

The Fclga3647 socket type supports multi-socket configurations, allowing users to scale their system performance by installing multiple compatible processors. This enables the creation of highly scalable server or workstation setups that can handle even the most demanding workloads.

Users who require immense processing power for tasks such as scientific simulations, rendering large-scale 3D models, or running multiple virtual machines can benefit from the Fclga3647 socket type. The ability to combine multiple Intel Xeon Silver 4210R Processors in a single system allows for unparalleled performance and computational capabilities.

Long-Term Reliability

The Fclga3647 socket type is designed for long-term reliability and stability. Server environments often demand 24/7 operation, and the Fclga3647 socket ensures robust connectivity between the processor and motherboard, minimizing potential points of failure.

The Intel Xeon Silver 4210R Processor's compatibility with the Fclga3647 socket type provides users with peace of mind knowing that their system is built on a reliable foundation. This is crucial for businesses or individuals who cannot afford downtime or interruptions in critical workflows.

Manufacturing Technology: 14NM

The manufacturing technology refers to the process used to fabricate the CPU. The Intel Xeon Silver 4210R Processor is built using a 14nm manufacturing technology, which represents the size of the smallest features on the processor's silicon die.

Improved Energy Efficiency

A smaller manufacturing process, such as 14nm, allows for increased energy efficiency. This means that the Intel Xeon Silver 4210R Processor can deliver powerful performance while consuming less power compared to processors built on larger manufacturing nodes.

The improved energy efficiency not only results in reduced electricity bills but also contributes to a greener environment by minimizing power consumption and heat generation. This is particularly advantageous for users who require high-performance computing while striving for energy-efficient solutions.

Higher Performance Density

The 14nm manufacturing technology enables higher performance density, allowing more transistors to be packed into a smaller area. This translates into a greater number of transistors within the same physical size, thereby increasing the processor's computational capabilities.

The Intel Xeon Silver 4210R Processor's 14nm manufacturing technology ensures that it can handle even the most demanding workloads efficiently. This is crucial for tasks that require significant processing power, such as scientific simulations, artificial intelligence, and large-scale data processing.

Improved Heat Dissipation

A smaller manufacturing process also contributes to improved heat dissipation. With a 14nm manufacturing technology, the Intel Xeon Silver 4210R Processor can dissipate heat more effectively, leading to lower operating temperatures and reducing the need for excessive cooling solutions.

This is particularly beneficial for users who prioritize a quiet and cool operating environment. The reduced heat generation not only improves system reliability but also provides a more comfortable user experience by minimizing fan noise and maintaining lower ambient temperatures in the system.

Power Consumption: 100W

The power consumption of a processor represents the amount of electrical power it requires to operate efficiently. The Intel Xeon Silver 4210R Processor has a power consumption rating of 100W, indicating its ability to deliver high performance while maintaining reasonable power efficiency.

Balanced Power Efficiency

With a power consumption of 100W, the Intel Xeon Silver 4210R Processor strikes a balance between performance and power efficiency. It delivers powerful computational capabilities while minimizing unnecessary power consumption.

This balance is vital for users who require substantial processing power without exceeding their system's power limitations. The 100W power consumption ensures that the processor can handle demanding tasks efficiently while operating within reasonable power constraints.

Cost-Effective Operation

The 100W power consumption rating of the Intel Xeon Silver 4210R Processor contributes to cost-effective operation, especially in scenarios where multiple processors are used in server environments or data centers.

By consuming a reasonable amount of power, the processor helps reduce electricity costs over time. This is particularly beneficial for businesses or individuals who operate their systems continuously or on a large scale, as the cumulative savings from efficient power consumption can be significant.

Environmental Considerations

A processor with a power consumption rating of 100W also contributes to environmental considerations by reducing its carbon footprint. By consuming less power, the Intel Xeon Silver 4210R Processor helps lower energy demand and reduces greenhouse gas emissions associated with electricity generation.

For users who prioritize sustainability and environmental responsibility, the processor's efficient power consumption aligns with their values and contributes to building greener computing systems.

Additional Info: Only

The 'Only' specification emphasizes that the Intel Xeon Silver 4210R Processor is a standalone product and does not include any additional components or accessories.

Flexibility in System Configuration

By offering the processor as a standalone product, users have the flexibility to choose and customize their system components according to their specific requirements and preferences.

Whether you are building a gaming rig, a high-performance workstation, or a server, the Intel Xeon Silver 4210R Processor's 'Only' specification allows you to select compatible motherboards, memory modules, storage devices, and other components that best suit your needs.

Compatibility with Existing Systems

The 'Only' specification also ensures compatibility with existing systems that may already have the necessary components in place. Users can simply upgrade their processor to the Intel Xeon Silver 4210R without having to replace other system components unnecessarily.

This flexibility is particularly advantageous for users who wish to enhance their system's performance without incurring the cost and effort of a complete system overhaul. The 'Only' specification allows for seamless integration into existing setups, saving time and resources.

Cost-Effective Solution

The standalone nature of the Intel Xeon Silver 4210R Processor also contributes to cost-effectiveness. By excluding unnecessary bundled components, the processor's price remains competitive and provides users with value for their investment.

This cost-effective solution is ideal for users who already possess compatible components or prefer to select and purchase them separately. It allows for budget-conscious system upgrades or builds without compromising on performance or quality.