Intel Xeon Gold 6138 BX806736138 20-Core 2.0GHz Processor

Core Count: 20

Benefits of High Core Count

The Intel Xeon Gold 6138 Processor is equipped with an impressive core count of 20. This means that it has 20 processing units, allowing it to handle multiple tasks simultaneously. The high core count is particularly beneficial for users who engage in heavy multitasking or run resource-intensive applications.

Enhanced Performance and Speed

With 20 cores, the Xeon Gold 6138 Processor offers enhanced performance and speed. Each core can independently execute instructions, enabling the processor to handle more tasks at once. This results in faster data processing and increased overall system performance.

Efficient Virtualization

A high core count is crucial for efficient virtualization. Virtualization allows multiple virtual machines to run simultaneously on a single physical server. With 20 cores, the Xeon Gold 6138 Processor can allocate a sufficient number of cores to each virtual machine, ensuring smooth and efficient operation.

Optimized for Multithreaded Applications

Many modern applications are designed to take advantage of multiple cores. By having 20 cores, the Xeon Gold 6138 Processor can efficiently handle multithreaded applications, such as video editing software, rendering programs, and scientific simulations. Users can experience faster processing times and improved productivity when working with these demanding applications.

Importance of Core Count for Gaming

In addition to professional applications, the high core count of the Xeon Gold 6138 Processor can also benefit gamers. While most games do not fully utilize all 20 cores, having a higher core count can still improve gaming performance. It allows the processor to handle background tasks, such as streaming or running voice chat programs, without impacting game performance.

Future-Proofing

Investing in a processor with a high core count like the Xeon Gold 6138 ensures that your system is future-proofed. As software and applications continue to evolve and become more multithreaded, having a high core count will become increasingly important. By choosing a processor with 20 cores, you can ensure that your system remains capable of handling future software demands.

Base Clock Speed: 2.0GHz

Benefits of Base Clock Speed

The base clock speed of the Intel Xeon Gold 6138 Processor is set at 2.0GHz. The base clock speed determines the minimum frequency at which the processor operates. While this may seem relatively low compared to other processors, it is important to consider the benefits that come with this specific clock speed.

Efficient Power Consumption

The lower base clock speed of 2.0GHz allows the Xeon Gold 6138 Processor to operate at a lower power consumption level. This results in reduced energy usage, which is not only beneficial for environmentally conscious users but also helps to lower electricity costs in the long run.

Improved Stability and Reliability

A lower base clock speed often translates into improved stability and reliability. By operating at a lower frequency, the processor generates less heat and experiences less thermal stress. This can lead to a longer lifespan for the processor and reduced chances of overheating or system failures.

Overclocking Potential

While the base clock speed may be set at 2.0GHz, it is important to note that many processors, including the Xeon Gold 6138, can be overclocked. Overclocking allows users to increase the clock speed beyond the base frequency, thus achieving higher performance. With proper cooling and overclocking techniques, users can push the Xeon Gold 6138 Processor to operate at higher speeds for demanding tasks.

Importance of Base Clock Speed for Single-Threaded Applications

Although a high core count is beneficial for multithreaded applications, some software primarily relies on single-threaded performance. Single-threaded applications are those that can only utilize a single core. In such cases, the base clock speed plays a crucial role in determining the overall performance of the application. A higher base clock speed ensures faster execution of single-threaded tasks.

Optimization for Specific Workloads

Various workloads have different requirements when it comes to clock speed. Some tasks, such as video editing or 3D rendering, heavily rely on high clock speeds to process large amounts of data quickly. However, other tasks, such as server workloads or database management, may prioritize stability and reliability over raw speed. The 2.0GHz base clock speed of the Xeon Gold 6138 Processor strikes a balance between these requirements, making it suitable for a wide range of workloads.

L3 Cache: 27.5MB

Benefits of L3 Cache

The Intel Xeon Gold 6138 Processor boasts an L3 cache size of 27.5MB. The L3 cache is a type of memory that stores frequently accessed data and instructions, allowing for faster retrieval compared to accessing data from main memory. The larger the L3 cache size, the more data can be stored and accessed quickly by the processor.

Reduced Memory Latency

With a larger L3 cache size, the Xeon Gold 6138 Processor can store a greater amount of data closer to the cores. This reduces the need to access data from the main memory, which can be slower in comparison. As a result, the processor experiences reduced memory latency, leading to faster data retrieval and improved overall system performance.

Enhanced Multitasking Performance

The larger L3 cache size is particularly beneficial for multitasking scenarios. When running multiple applications simultaneously, the processor can store a larger portion of frequently accessed data in the cache. This allows for quicker access to data from different applications, resulting in smoother multitasking and improved responsiveness.

Improved Gaming Experience

For gamers, a larger L3 cache size can contribute to a better gaming experience. Games often rely on frequent data access, such as loading textures or accessing game assets. With a 27.5MB L3 cache, the Xeon Gold 6138 Processor can store more game-related data in the cache, reducing loading times and improving in-game performance.

Importance of L3 Cache for Large Datasets

For users working with large datasets, such as data scientists or researchers, a larger L3 cache size becomes crucial. Analyzing large amounts of data often involves repeatedly accessing the same data points. By having a larger cache, the Xeon Gold 6138 Processor can store more of this frequently accessed data, resulting in faster data processing and analysis.

Cache Coherency and Data Sharing

In multi-core processors like the Xeon Gold 6138, cache coherency is essential for efficient data sharing between cores. The L3 cache plays a crucial role in this process by storing shared data that can be accessed by different cores. The 27.5MB L3 cache size ensures that an ample amount of shared data can be stored, promoting efficient communication and collaboration between cores.

UPI Speed: 10.4GT/S

Benefits of Upi Speed

The Intel Xeon Gold 6138 Processor features a UPI (Ultra Path Interconnect) speed of 10.4GT/s. UPI is a high-speed interconnect technology that facilitates communication between different processor sockets in a multi-socket system. The higher the UPI speed, the faster data can be transferred between sockets.

Improved Scalability and Flexibility

A high UPI speed enables better scalability and flexibility in multi-socket systems. Systems utilizing multiple processors can benefit from faster data transfer rates between sockets. This allows for efficient distribution of workload across multiple processors, resulting in improved system performance and responsiveness.

Enhanced Data Sharing and Coherency

In multi-socket systems, efficient data sharing and cache coherency are vital for optimal performance. The higher UPI speed of 10.4GT/s ensures that data can be quickly shared between processors, reducing latency and improving overall system efficiency. This is particularly important in scenarios where different cores need to access and update shared data simultaneously.

Support for Large-Scale Applications

Applications that require extensive computational power, such as scientific simulations or large-scale data processing, can benefit from the high UPI speed. The fast interconnectivity provided by the 10.4GT/s UPI speed allows for efficient distribution of workload across multiple processors, enabling these applications to execute tasks more quickly and effectively.

Importance of UPI Speed for Server Systems

In server systems, where multiple processors are utilized to handle heavy workloads, UPI speed is of paramount importance. Fast and efficient communication between processors is crucial for maintaining smooth operation and ensuring that the system can handle a large number of concurrent requests. The 10.4GT/s UPI speed of the Xeon Gold 6138 Processor contributes to the overall performance and reliability of server systems.

Scalability for Future Upgrades

Choosing a processor with a high UPI speed provides scalability for future upgrades. As technology advances and more powerful processors become available, having a high UPI speed ensures compatibility and allows for easy integration of new processors into the system. This future-proofing aspect is particularly valuable for users who anticipate upgrading their systems as their computational needs grow.

Socket Type: FCLGA3647

Benefits of Socket Type

The Intel Xeon Gold 6138 Processor utilizes the FCLGA3647 socket type. The socket type determines the physical interface between the processor and the motherboard. The FCLGA3647 socket offers several benefits that are important for users seeking high-performance computing solutions.

Support for High-End Processors

The FCLGA3647 socket type is designed to accommodate high-end processors like the Xeon Gold 6138. It provides the necessary power delivery and electrical connections required to support these processors' demanding performance capabilities. Users who require powerful computing solutions can rely on the FCLGA3647 socket type to meet their needs.

Scalability and Expandability

The FCLGA3647 socket type enables scalability and expandability in server systems or workstations. It allows users to upgrade their processors to more powerful models without needing to replace the entire motherboard. This flexibility is crucial for users who anticipate future growth or need to adapt their systems to handle increasingly demanding workloads.

Stability and Reliability

The FCLGA3647 socket type is known for its robust design, providing stability and reliability. The socket securely holds the processor in place and ensures proper electrical connections, preventing any issues caused by loose connections or poor contact. This enhances the overall stability and reliability of the system, reducing the chances of failure or errors.

Importance of Socket Type for Workstation Builds

For users building high-performance workstations, choosing the right socket type is crucial. The FCLGA3647 socket type allows for the installation of powerful processors, providing the necessary performance for demanding applications such as 3D modeling, video editing, or CAD software. It ensures that the workstation can handle complex tasks without compromising on performance.

Server Deployment and Maintenance

In server environments, the FCLGA3647 socket type simplifies deployment and maintenance processes. The standardized socket design allows for easy installation and replacement of processors, reducing downtime and minimizing system disruption. Server administrators can efficiently manage their systems by quickly swapping out processors when needed.

Manufacturing Technology: 14NM

Benefits of Manufacturing Technology

The Intel Xeon Gold 6138 Processor is built using a 14nm manufacturing technology. The manufacturing technology represents the size of the transistors used in the processor's fabrication process. Smaller transistor sizes offer several advantages in terms of performance, efficiency, and power consumption.

Increased Performance

The 14nm manufacturing technology allows for the integration of more transistors within a smaller space. This higher transistor density translates into increased performance capabilities for the Xeon Gold 6138 Processor. The processor can execute more instructions per clock cycle, resulting in improved computational power and faster data processing.

Improved Energy Efficiency

Smaller transistor sizes enable better energy efficiency. The Xeon Gold 6138 Processor benefits from the 14nm manufacturing technology by consuming less power while delivering high performance. The improved energy efficiency is particularly advantageous in scenarios where power consumption needs to be minimized, such as data centers or systems running 24/7.

Thermal Management

The smaller transistors in the 14nm manufacturing process generate less heat compared to larger transistors. This allows for more efficient thermal management, reducing the risk of overheating and ensuring system stability. The Xeon Gold 6138 Processor can maintain optimal operating temperatures even during prolonged periods of heavy workload, providing reliable performance.

Importance of Manufacturing Technology for Mobile Devices

In the context of mobile devices, such as laptops or tablets, the 14nm manufacturing technology plays a vital role. Smaller transistors not only offer improved performance and energy efficiency but also contribute to longer battery life. By consuming less power, processors built with 14nm technology extend the device's battery endurance, allowing users to work or play on their devices for longer durations.

Future-Proofing and Compatibility

Opting for a processor with a 14nm manufacturing technology ensures compatibility with existing systems and future-proofing against advancements in technology. As manufacturers continue to refine and improve manufacturing processes, processors with smaller transistor sizes will become more common. Choosing a processor built with the 14nm technology ensures compatibility with current software and hardware standards while being prepared for future updates.

Power Consumption: 125W

Benefits of Power Consumption

The Intel Xeon Gold 6138 Processor has a power consumption rating of 125W. Power consumption refers to the amount of electrical power required by the processor during operation. The power consumption rating provides users with valuable information about the energy requirements and thermal characteristics of the processor.

Energy Efficiency

The Xeon Gold 6138 Processor's 125W power consumption rating demonstrates its energy efficiency. The processor delivers high performance while consuming a relatively moderate amount of power. This is particularly important for users who strive to reduce their carbon footprint or who operate systems that require energy-efficient components.

Heat Dissipation and Cooling

The power consumption rating of 125W provides insight into the thermal characteristics of the Xeon Gold 6138 Processor. The processor generates heat during operation, and it is essential to dissipate this heat efficiently to maintain optimal performance and prevent overheating. By knowing its power consumption, users can choose appropriate cooling solutions to ensure that the processor operates within safe temperature limits.

Compatibility and Power Supply Requirements

Understanding the power consumption of the Xeon Gold 6138 Processor is crucial for compatibility and power supply requirements. The 125W rating allows users to determine whether their existing power supply unit can adequately handle the processor's power demands. It ensures that the system is properly equipped to provide the necessary electrical power without causing instability or performance degradation.

Importance of Power Consumption for Data Centers

Data centers, which house numerous servers, routers, and storage systems, consume vast amounts of energy. Optimizing power consumption is a top priority for data center operators to reduce operating costs and minimize environmental impact. Processors with a power consumption rating like the Xeon Gold 6138's 125W contribute to energy-efficient data center operations, resulting in lower electricity bills and reduced carbon emissions.

Quiet and Efficient Computing

For users who value quiet computing experiences, the power consumption rating is an essential consideration. Processors with lower power consumption ratings tend to generate less heat,