HPE 872116-B21 Xeon Gold 6140M 18-Core 2.3GHz 24.75MB L3 Cache 10.4GT/S UPI Speed

Core Count: 18

The HPE Xeon Gold 6140M Processor is a powerful processor that boasts an impressive core count of 18. This feature sets it apart from other processors on the market and provides users with exceptional performance and capabilities.

Benefits of 18 Cores

Having 18 cores in a processor offers several key benefits for users:

1. Enhanced Multitasking:

With more cores, the processor can handle multiple tasks simultaneously, allowing for improved multitasking capabilities. This is particularly advantageous for users who frequently run resource-intensive applications or engage in complex tasks such as video editing, 3D rendering, or scientific simulations.

2. Increased Processing Power:

The additional cores provide a significant boost to processing power, enabling faster execution of tasks. Whether you're running demanding software or handling large datasets, the 18 cores ensure efficient and speedy performance.

3. Improved Parallel Processing:

Parallel processing is essential for tasks that can be divided into smaller sub-tasks and executed simultaneously. With 18 cores, the processor can efficiently distribute the workload across multiple cores, resulting in faster completion times for parallelizable tasks.

4. Support for Virtualization:

Virtualization has become an integral part of modern computing environments. The high core count of the HPE Xeon Gold 6140M Processor allows for efficient virtual machine (VM) deployment and management. Users can run multiple VMs concurrently without sacrificing performance, making it an ideal choice for virtualized environments.

Importance of 18 Cores

The core count plays a crucial role in determining the overall performance and capabilities of a processor. Here's why the 18-core configuration of the HPE Xeon Gold 6140M Processor is important:

1. Future-Proofing:

As software and applications continue to evolve, multi-threaded performance becomes increasingly important. By investing in a processor with 18 cores, users can ensure their system remains capable of handling future software advancements without requiring a processor upgrade.

2. Professional Workloads:

Professionals who rely on resource-intensive applications, such as content creators, data scientists, and engineers, can greatly benefit from the high core count. These applications often require significant processing power to handle complex calculations, rendering, or simulations, and the 18 cores provide the necessary horsepower to complete these tasks efficiently.

3. Server Applications:

For businesses operating server infrastructure, the 18 cores offer tremendous value. Servers often handle multiple concurrent requests and workloads from various users or clients. The high core count allows for efficient processing of these requests, ensuring smooth performance and minimized processing delays.

4. Scalability:

In environments that require scalability, the HPE Xeon Gold 6140M Processor's 18 cores can accommodate growing workloads. As demand increases, additional applications or services can be added without overburdening the processor, thanks to its ability to distribute the load across multiple cores.

Overall, the 18-core configuration of the HPE Xeon Gold 6140M Processor delivers impressive multitasking capabilities, increased processing power, improved parallel processing, and support for virtualization. This makes it a compelling choice for professionals, businesses, and anyone seeking top-notch performance and future-proofing.

Base Clock Speed: 2.3GHz

One of the critical features of the HPE Xeon Gold 6140M Processor is its base clock speed of 2.3GHz. This speed represents the frequency at which the processor operates when running at its default settings without any turbo boost or overclocking. The base clock speed plays a crucial role in determining the overall performance and responsiveness of the processor.

Benefits of 2.3GHz Base Clock Speed

The 2.3GHz base clock speed offers several advantages for users:

1. Efficient Task Execution:

The base clock speed represents the minimum frequency at which the processor operates. With a higher base clock speed of 2.3GHz, the HPE Xeon Gold 6140M Processor can execute tasks more quickly and efficiently, resulting in improved overall system performance.

2. Snappy Responsiveness:

A higher base clock speed translates to snappier system responsiveness, as tasks can be executed faster. Whether you're launching applications, loading files, or performing everyday computing tasks, the 2.3GHz base clock speed ensures smooth and prompt execution.

3. Single-Threaded Performance:

Certain applications and workloads rely heavily on single-threaded performance, which measures the ability of a processor to handle individual tasks. The higher base clock speed of 2.3GHz provides a solid foundation for excellent single-threaded performance, enabling efficient execution of tasks that cannot be effectively parallelized.

Importance of 2.3GHz Base Clock Speed

The base clock speed is an essential specification to consider when evaluating processor performance. Here's why the 2.3GHz base clock speed of the HPE Xeon Gold 6140M Processor is important:

1. Balance between Power and Efficiency:

The 2.3GHz base clock speed strikes a balance between power and energy efficiency. It offers substantial processing power while keeping power consumption and heat generation in check. This characteristic is particularly crucial for users who require high-performance computing without compromising energy efficiency.

2. Optimal Performance for a Wide Range of Applications:

The 2.3GHz base clock speed ensures optimal performance across a wide range of applications and workloads. From everyday computing tasks to demanding professional applications, the processor's base clock speed provides the necessary performance headroom to handle diverse computing needs effectively.

3. Compatibility with Software Requirements:

Certain software applications or operating systems have specific requirements regarding minimum clock speeds. The 2.3GHz base clock speed meets or exceeds the requirements of most software, ensuring compatibility and optimal performance without any compromises.

4. Overclocking Potential:

For users who desire even more performance, the 2.3GHz base clock speed provides a solid foundation for overclocking. Overclocking allows users to increase the clock speed above the base frequency, extracting additional performance from the processor. The higher the base clock speed, the greater the overclocking potential.

The 2.3GHz base clock speed of the HPE Xeon Gold 6140M Processor offers efficient task execution, snappy responsiveness, excellent single-threaded performance, and a balance between power and efficiency. It provides optimal performance for a wide range of applications, ensures compatibility with software requirements, and offers overclocking potential for users seeking additional performance gains.

L3 Cache: 24.75MB

The HPE Xeon Gold 6140M Processor is equipped with an impressive L3 cache size of 24.75MB. The L3 cache plays a vital role in enhancing processor performance by efficiently storing frequently accessed data and instructions.

Benefits of 24.75MB L3 Cache

Having a generous L3 cache size of 24.75MB offers several key benefits for users:

1. Improved Data Access Speed:

With a larger L3 cache, the processor can store more data and instructions closer to the cores, reducing the time it takes to access this information. This results in faster data retrieval, improved application responsiveness, and overall enhanced performance.

2. Better Instruction Execution:

The L3 cache holds frequently used instructions, allowing the processor to execute them quickly without needing to retrieve them from system memory. This accelerates instruction execution and enhances overall processing efficiency, especially for repetitive or looped tasks commonly found in many applications.

3. Reduced Memory Latency:

By keeping frequently accessed data in the L3 cache, the processor can minimize the need to access slower system memory. This reduces memory latency, which is the time it takes for the processor to retrieve data from RAM. Lower latency translates to improved system responsiveness and faster execution of memory-dependent tasks.

Importance of 24.75MB L3 Cache

The L3 cache size is a critical factor in determining overall processor performance. Here's why the 24.75MB L3 cache of the HPE Xeon Gold 6140M Processor is important:

1. Boosted Application Performance:

The generous L3 cache size significantly enhances application performance by reducing data access times and improving instruction execution. Whether you're running resource-intensive software or everyday productivity applications, the 24.75MB L3 cache ensures smooth and efficient operation.

2. Handling Large Datasets:

Professionals dealing with large datasets, such as data scientists or engineers, benefit greatly from a larger L3 cache. The substantial cache size allows for more efficient handling of large amounts of data, resulting in faster processing times and improved productivity.

3. Gaming Performance:

Gamers can also reap the benefits of a larger L3 cache. Many modern games rely on fast data access and instruction execution, and the 24.75MB L3 cache facilitates smooth gameplay by minimizing data latency and enhancing overall performance.

4. Multi-Threaded Performance:

The 24.75MB L3 cache is particularly advantageous for multi-threaded workloads. With more cores, the processor can benefit from a larger cache size to efficiently store and retrieve data required by each core, resulting in improved multi-threaded performance.

In summary, the 24.75MB L3 cache of the HPE Xeon Gold 6140M Processor offers improved data access speed, better instruction execution, and reduced memory latency. It boosts application performance, handles large datasets efficiently, enhances gaming performance, and improves multi-threaded processing capabilities.

Upi Speed: 10.4GT/S

The HPE Xeon Gold 6140M Processor features an impressive UPI (Ultra Path Interconnect) speed of 10.4GT/s. The UPI speed is a crucial specification that determines the bandwidth and communication capabilities between multiple processors in a system.

Benefits of 10.4GT/s UPI Speed

The 10.4GT/s UPI speed offers several key benefits for users:

1. High-Speed Interconnect:

The UPI speed directly affects the communication speed between processors within a system. With a higher UPI speed of 10.4GT/s, the HPE Xeon Gold 6140M Processor enables lightning-fast interconnectivity between multiple processors, ensuring efficient data transfer and communication.

2. Scalability:

For systems that require scalability and support for multiple processors, a high UPI speed is essential. The 10.4GT/s UPI speed allows for seamless integration and communication between processors, facilitating efficient workload distribution and parallel processing.

3. Improved System Performance:

Efficient interprocessor communication is crucial for maximizing system performance. The 10.4GT/s UPI speed ensures minimal latency and high bandwidth, resulting in faster data exchange and improved overall system performance, especially in multi-processor environments.

Importance of 10.4GT/s UPI Speed

The UPI speed is a critical factor in determining the system's ability to handle multiple processors effectively. Here's why the 10.4GT/s UPI speed of the HPE Xeon Gold 6140M Processor is important:

1. Multi-Processor Environments:

For users who require high-performance computing capabilities and support for multiple processors, the 10.4GT/s UPI speed ensures efficient interconnectivity and communication between the processors. This allows for seamless collaboration and workload distribution across the system.

2. Large-Scale Data Processing:

Systems involved in large-scale data processing or analytics greatly benefit from a higher UPI speed. The 10.4GT/s UPI speed enables faster data transfer between processors, reducing processing times and improving overall efficiency.

3. Enhanced Parallel Processing:

Parallel processing is essential for tasks that can be divided into smaller sub-tasks and executed simultaneously across multiple processors. The high UPI speed of 10.4GT/s enables efficient parallel processing, resulting in faster completion times for parallelizable workloads.

4. Future-Proofing:

Investing in a processor with a high UPI speed ensures compatibility with future hardware advancements, such as newer processors or system upgrades that support faster interconnectivity standards. The 10.4GT/s UPI speed helps future-proof your system by providing headroom for scalability and improved performance.

In conclusion, the 10.4GT/s UPI speed of the HPE Xeon Gold 6140M Processor offers high-speed interconnectivity, scalability, improved system performance, and support for multi-processor environments. It is crucial for users involved in large-scale data processing, parallel processing, and those seeking future-proofing capabilities.

Socket Type: FCLGA3647

The HPE Xeon Gold 6140M Processor features a socket type of FCLGA3647. The socket type is a vital specification that determines the physical compatibility between the processor and the motherboard.

Benefits of FCLGA3647 Socket Type

The FCLGA3647 socket type offers several key benefits for users:

1. Broad Compatibility:

The FCLGA3647 socket type is widely supported by many server-grade motherboards, ensuring broad compatibility across various system configurations. This allows users to easily integrate the HPE Xeon Gold 6140M Processor into their existing or new server setups without compatibility concerns.

2. Scalability:

For users who require scalability and the ability to upgrade their system in the future, the FCLGA3647 socket type provides excellent support. Motherboards that support this socket type often have multiple CPU sockets, allowing for the installation of additional processors to meet increasing processing demands.

3. High-Speed Interconnectivity:

Socket types like FCLGA3647 are designed to support high-speed interconnectivity standards, such as UPI or other technologies specific to the processor family. This enables efficient communication between the processor and other components on the motherboard, ensuring optimal performance and responsiveness.

Importance of FCLGA3647 Socket Type

The socket type is a critical consideration when selecting a processor, as it determines the physical compatibility with the motherboard. Here's why the FCLGA3647 socket type of the HPE Xeon Gold 6140M Processor is important:

1. Server Grade Performance:

The FCLGA3647 socket type is primarily associated with server-grade processors, indicating high-performance capabilities. Users seeking top-notch performance for server applications can rely on the FCLGA3647 socket type to deliver the necessary processing power and features.

2. Future-Proofing:

Investing in a processor with a widely supported socket type like FCLGA3647 ensures compatibility with future hardware upgrades. As new processors are released, users can upgrade their system without the need for a motherboard replacement, saving costs and extending the lifespan of their system.

3. System Flexibility:

The FCLGA3647 socket type provides system flexibility by supporting multi-processor configurations. Users can easily scale their system by adding additional processors, enabling them to meet growing demands or handle resource-intensive tasks efficiently.

4. Reliability and Stability:

Motherboards that support the FCLGA3647 socket type are often designed for enterprise-level applications, emphasizing reliability and stability. This makes it an ideal choice for users who require a robust and dependable system for critical workloads or continuous operation.

In summary, the FCLGA3647 socket type of the HPE Xeon Gold 6140M Processor offers broad compatibility, scalability, high-speed interconnectivity, server-grade performance, future-proofing capabilities, system flexibility, reliability, and stability. It ensures seamless integration into various server configurations and guarantees optimal performance for demanding applications.

Manufacturing Technology: 14NM

The HPE Xeon Gold 6140M Processor is built using a manufacturing technology of 14nm (nanometers). The manufacturing technology represents the size of the transistors and circuits on the processor's silicon die, which directly impacts its performance, power efficiency, and heat dissipation capabilities.

Benefits of 14nm Manufacturing Technology

The