HPE 878136-B21 Intel Xeon Gold 6138 20 Core 2.0GHz Processor

Core Count: 20

Enhanced Performance

The HPE Intel Xeon Gold 6138 Processor boasts an impressive core count of 20, making it a powerhouse when it comes to performance. With each core capable of handling multiple tasks simultaneously, users can experience enhanced multitasking capabilities and improved overall system responsiveness. This is particularly beneficial for users who engage in resource-intensive activities such as video editing, 3D rendering, and data analysis. The increased core count allows for faster processing speeds and smoother execution of complex tasks, resulting in reduced wait times and increased productivity.

Optimized Workloads

The 20-core configuration of the HPE Intel Xeon Gold 6138 Processor is ideal for handling heavy workloads and demanding applications. Whether you are running virtual machines, managing databases, or hosting websites, the ample number of cores ensures that each task is allocated the necessary resources for optimal performance. This translates to faster data processing, reduced latency, and improved system stability. Users can expect seamless multitasking without compromising on efficiency, enabling them to accomplish more in less time.

Scalability and Future-Proofing

With a core count of 20, the HPE Intel Xeon Gold 6138 Processor offers scalability and future-proofing capabilities. As technology advances and software becomes more demanding, having a higher number of cores ensures that your system can handle the evolving workload requirements. This means that you can continue to upgrade your software and add more intensive applications without experiencing performance bottlenecks. The scalability of the processor allows for seamless expansion, making it a cost-effective solution for long-term use.

Parallel Processing

The high core count of the HPE Intel Xeon Gold 6138 Processor enables efficient parallel processing. Parallel processing refers to the ability to break down a task into smaller sub-tasks and execute them simultaneously across multiple cores. This results in significantly faster execution times, as the workload is distributed evenly across the available cores. Users can benefit from improved efficiency and reduced processing times, particularly in tasks that can be divided into smaller parts, such as scientific simulations, video encoding, and rendering.

Server Virtualization

For users involved in server virtualization, the 20-core configuration of the HPE Intel Xeon Gold 6138 Processor is highly advantageous. Virtualization involves running multiple virtual machines on a single physical server, and each virtual machine requires its own processing resources. The high core count ensures that each virtual machine is allocated an adequate number of cores, preventing resource contention and maintaining optimal performance. Users can run more virtual machines simultaneously without experiencing any degradation in performance, resulting in increased efficiency and cost savings.

Base Clock Speed: 2.0GHz

Efficient Task Execution

The HPE Intel Xeon Gold 6138 Processor features a base clock speed of 2.0GHz, which determines the frequency at which the processor operates under normal conditions. A higher base clock speed translates to faster task execution, making it essential for users who require quick response times and snappy performance. Whether you are browsing the web, editing documents, or running basic applications, the 2.0GHz base clock speed ensures smooth operation and reduces lag. This feature is particularly important for everyday computing tasks that do not heavily rely on multiple cores.

Single-Threaded Performance

While a high core count is beneficial for multitasking and parallel processing, certain applications may rely heavily on single-threaded performance. Single-threaded performance refers to the ability of a processor to execute tasks that cannot be divided into smaller parts efficiently. The base clock speed plays a crucial role in determining single-threaded performance, as it directly affects the speed at which individual tasks are completed. With a base clock speed of 2.0GHz, the HPE Intel Xeon Gold 6138 Processor delivers exceptional single-threaded performance, ensuring efficient execution of tasks that cannot be parallelized.

Reduced Power Consumption

The base clock speed of a processor is closely tied to its power consumption. A higher base clock speed typically results in increased power requirements, as more energy is needed to maintain stable operation at higher frequencies. However, the HPE Intel Xeon Gold 6138 Processor strikes a balance between performance and power efficiency with its 2.0GHz base clock speed. This ensures that users can enjoy fast and responsive performance without unnecessarily draining power or generating excessive heat. The optimized power consumption contributes to a more sustainable and cost-effective computing experience.

Compatibility with Software

Many software applications are designed to work optimally within a certain range of clock speeds. The 2.0GHz base clock speed of the HPE Intel Xeon Gold 6138 Processor ensures compatibility with a wide range of software, allowing users to take full advantage of their applications without encountering any compatibility issues. Whether you are using productivity software, multimedia editing tools, or gaming applications, the processor's base clock speed ensures that your software performs as intended, delivering a smooth and seamless user experience.

Overclocking Potential

For users interested in pushing their system's limits and gaining additional performance, the HPE Intel Xeon Gold 6138 Processor offers overclocking potential. Overclocking involves increasing the clock speed of the processor beyond its default specifications to achieve higher performance levels. While the base clock speed of 2.0GHz provides excellent performance out of the box, advanced users can explore overclocking options to squeeze out even more power from their system. With proper cooling and configuration, users can safely increase the clock speed, unlocking additional performance for tasks that require extra processing power.

L3 Cache: 27.5MB

Improved Data Access

The HPE Intel Xeon Gold 6138 Processor features an L3 cache size of 27.5MB, which serves as a high-speed memory storage area located directly on the processor. The larger the cache size, the more data can be stored closer to the processor, resulting in faster access times. The significant 27.5MB L3 cache allows for improved data access, reducing the time it takes for the processor to retrieve frequently accessed information. This results in faster application loading times, quicker data retrieval from memory, and overall improved system responsiveness.

Reduced Memory Latency

Memory latency refers to the time it takes for the processor to retrieve data from the system's main memory. A larger L3 cache size helps reduce memory latency, as more data can be stored closer to the processor. With a generous L3 cache size of 27.5MB, the HPE Intel Xeon Gold 6138 Processor minimizes memory latency, ensuring that data is readily available for processing. This results in improved overall system performance, particularly in tasks that heavily depend on memory access, such as database querying and complex calculations.

Efficient Caching Mechanism

The caching mechanism implemented in the HPE Intel Xeon Gold 6138 Processor optimizes data retrieval and storage. The processor intelligently predicts which data will be accessed in the near future and proactively stores it in the cache. This reduces the need to access slower main memory, resulting in faster execution times and improved system efficiency. The large 27.5MB L3 cache allows for storing a significant amount of frequently accessed data, ensuring that critical information is readily available for processing and reducing the need for time-consuming memory accesses.

Enhanced Gaming Performance

Gamers can benefit greatly from the generous L3 cache size of the HPE Intel Xeon Gold 6138 Processor. Many modern games rely on quick data retrieval and seamless loading times to deliver a smooth gaming experience. The large 27.5MB L3 cache ensures that critical game assets, such as textures, models, and sound files, are readily available, reducing loading times and minimizing in-game stuttering. Gamers can enjoy faster level loading, smoother gameplay, and improved overall performance, providing a competitive edge in online multiplayer games.

Boosted Virtual Machine Performance

For users running virtual machines, the substantial L3 cache size of the HPE Intel Xeon Gold 6138 Processor significantly enhances performance. Each virtual machine requires its own dedicated resources, including memory access. The large L3 cache allows for efficient caching of frequently accessed data within each virtual machine, minimizing the need for time-consuming memory accesses. This results in improved overall virtual machine performance, reduced latency, and enhanced responsiveness. Users can run more virtual machines simultaneously without sacrificing performance, making it an ideal choice for virtualization environments.

Upi Speed: 10.4GT/S

High-Speed Interconnectivity

The Upi Speed of 10.4GT/S in the HPE Intel Xeon Gold 6138 Processor enables high-speed interconnectivity between multiple processors or other compatible devices. Upi stands for "Ultra Path Interconnect," and it serves as a high-bandwidth communication link that facilitates efficient data exchange between different components of a system. The 10.4GT/S Upi Speed ensures rapid data transmission, enabling seamless communication between processors in multi-socket systems or connecting high-performance devices such as graphics cards or storage devices. This results in improved overall system performance and responsiveness.

Scalability and Expandability

The high Upi Speed of 10.4GT/S allows for scalability and expandability of the system. Multi-socket systems, which consist of multiple processors working together, are commonly used in server environments or high-performance computing setups. The Upi Speed ensures that data can be quickly shared between processors, allowing them to work in tandem to handle more significant workloads and process data more efficiently. Additionally, the high Upi Speed enables easy expansion of the system by adding more processors or compatible devices, providing a flexible and scalable solution for evolving computational needs.

Improved System Efficiency

Efficient data communication between components is essential for overall system efficiency. The 10.4GT/S Upi Speed in the HPE Intel Xeon Gold 6138 Processor ensures that data transfers occur at high speeds, minimizing communication bottlenecks and reducing latency. This results in improved system efficiency, as tasks can be executed more quickly and resource allocation can be optimized. Users can expect faster data processing, reduced wait times, and increased productivity, especially in applications that heavily rely on inter-component communication, such as scientific simulations or distributed computing.

Enhanced Data-Intensive Workloads

Data-intensive workloads, such as big data analytics or machine learning algorithms, require efficient data movement and processing capabilities. The high Upi Speed of 10.4GT/S enables seamless data transfer between multiple processors or devices, ensuring that large datasets can be processed efficiently. Users working with data-intensive applications can benefit from faster data access, reduced processing times, and improved overall performance. The high-speed interconnectivity provided by the Upi Speed enhances productivity and enables users to process vast amounts of data with ease.

Future-Proofing

The high Upi Speed of 10.4GT/S ensures that the HPE Intel Xeon Gold 6138 Processor is future-proofed for upcoming technologies and advancements. As data-intensive applications become more prevalent and high-performance computing requirements continue to grow, having a high-speed interconnectivity solution becomes increasingly important. The 10.4GT/S Upi Speed allows users to leverage future technologies and seamlessly integrate with compatible devices, ensuring that their system can keep up with evolving computational demands. Future-proofing your system with a high Upi Speed provides peace of mind and extends the longevity of your investment.

Socket Type: FCLGA3647

Compatibility and Flexibility

The FCLGA3647 socket type featured in the HPE Intel Xeon Gold 6138 Processor offers compatibility and flexibility in system building. The socket type determines the physical connection between the processor and the motherboard, and different socket types are designed to support specific processor models. The FCLGA3647 socket type ensures compatibility with a wide range of server-grade motherboards, providing users with flexibility in choosing their system components. Whether you are building a new server or upgrading an existing one, the FCLGA3647 socket type allows for seamless integration of the HPE Intel Xeon Gold 6138 Processor.

Server-Grade Performance

The FCLGA3647 socket type is primarily used in server environments, where reliability, scalability, and performance are paramount. The HPE Intel Xeon Gold 6138 Processor delivers server-grade performance, making it an ideal choice for enterprise-level applications such as database management, virtualization, or cloud computing. The FCLGA3647 socket type ensures that the processor is securely installed and provides a stable connection between the processor and motherboard, enabling users to harness the full potential of their hardware without any compatibility concerns.

Support for Advanced Features

The FCLGA3647 socket type supports advanced features and technologies that are essential for server-grade applications. These features include support for ECC (Error-Correcting Code) memory, which helps detect and correct memory errors, ensuring data integrity and system stability. The socket type also enables support for multi-socket configurations, allowing users to build systems with multiple processors working together to handle demanding workloads. The FCLGA3647 socket type ensures that the HPE Intel Xeon Gold 6138 Processor can take advantage of these advanced features, providing users with a reliable and high-performance solution.

Longevity and Scalability

Choosing a processor with a compatible socket type ensures longevity and scalability for your system. The FCLGA3647 socket type is designed to support future processor generations, allowing users to upgrade their systems without needing to replace the entire motherboard. This provides a cost-effective solution for scaling up performance as computational needs evolve over time. By selecting the HPE Intel Xeon Gold 6138 Processor with the FCLGA3647 socket type, users can future-proof their systems and ensure compatibility with upcoming hardware advancements, extending the lifespan of their investment.

Enterprise-Grade Reliability

The FCLGA3647 socket type is widely used in enterprise environments where reliability is crucial. The socket type ensures secure and stable connections between the processor and motherboard, minimizing the risk of disconnections or performance issues. This reliability is essential for mission-critical applications that require uninterrupted operation, such as financial transactions, data centers, or scientific research facilities. By opting for the HPE Intel Xeon Gold 6138 Processor with the FCLGA3647 socket type, users can confidently rely on its enterprise-grade reliability to meet their demanding computational requirements.

Manufacturing Technology: 14NM

Efficient Power Usage

The 14nm manufacturing technology utilized in the HPE Intel Xeon Gold 6138 Processor offers improved power efficiency. The manufacturing technology refers to the size of the transistors used to build the processor, with smaller transistor sizes allowing for greater power efficiency. The 14nm technology ensures that the processor consumes less power while delivering high performance, making it an energy-efficient solution for users. This results in reduced power consumption, lower electricity bills, and a smaller environmental footprint, making it an environmentally friendly choice.

Reduced Heat Generation

The 14nm manufacturing technology not only improves power efficiency but also reduces heat generation. Smaller transistors generate less heat when compared to larger ones, as they require less power to operate. The reduced heat generation has several benefits for users, including lower cooling requirements, quieter operation, and decreased risk of thermal throttling. Additionally, reduced heat generation contributes to the overall stability and longevity of the processor, ensuring reliable performance even under heavy workloads. Users can enjoy a cooler and more comfortable computing environment while maintaining optimal system performance.

Higher Performance Density

The 14nm manufacturing technology allows for higher performance density in the HPE Intel Xeon Gold 6138 Processor. Performance density refers to the amount of processing power that can be packed into a given space. With smaller transistors, more components can be integrated into the same physical area, resulting in higher performance per unit of space. This allows for more powerful processors within the same form factor, enabling users to achieve higher performance levels without needing larger systems or sacrificing space efficiency. The 14nm manufacturing technology ensures that users can enjoy excellent performance in compact systems.

Advanced Transistor Design

The 14nm manufacturing technology enables advanced transistor designs that further enhance performance and power efficiency. With smaller transistors, designers can implement complex circuitry and new features that improve the processor's capabilities. The advanced transistor design in the HPE Intel Xeon Gold 6138 Processor allows for better power management, reduced leakage current