HPE 874291-B21 Xeon Gold 6138 20-Core Processor Kit 2.0GHZ

Core Count

The HPE Xeon Gold 6138 Processor Kit is equipped with an impressive core count of 20. This means that the processor contains 20 individual processing units, or cores, which can handle tasks simultaneously. The core count is an essential feature of a processor and plays a crucial role in determining its performance and capabilities.

Benefits of a High Core Count

A high core count offers several benefits to users:

• Improved Multitasking: With 20 cores, the processor can efficiently handle multiple tasks at once. This is particularly beneficial for professionals who work with resource-intensive applications such as video editing, 3D rendering, and virtualization.
• Faster Processing Speed: The presence of more cores allows for faster processing speeds as each core can handle a separate task simultaneously. This results in quicker execution of complex calculations and data processing.
• Enhanced Performance in Parallel Workloads: Certain workloads, such as scientific simulations or financial modeling, require parallel processing. A higher core count enables better performance in these parallelized tasks by distributing the workload across multiple cores.

Applications that Benefit from High Core Count

The HPE Xeon Gold 6138 Processor Kit with its 20 cores is particularly suitable for the following types of applications:

1. Data Analysis and Big Data Processing

Data analysis and processing large datasets can be computationally intensive tasks. With a high core count, the processor can efficiently handle these tasks, resulting in faster data analysis and reduced processing time.

2. Virtualization

In a virtualized environment, multiple virtual machines run simultaneously on a single physical server. A processor with a high core count, such as the HPE Xeon Gold 6138, can effectively handle the demands of virtualization by dedicating separate cores to each virtual machine, ensuring smooth performance and minimizing latency.

3. Content Creation and Video Editing

Professionals working with content creation, video editing, and rendering software require significant processing power. The increased core count of the HPE Xeon Gold 6138 allows for faster editing and rendering of videos, resulting in improved productivity and reduced turnaround times.

Base Clock Speed

The HPE Xeon Gold 6138 Processor Kit features a base clock speed of 2.0GHz. The base clock speed represents the frequency at which the processor operates by default when not under heavy load. It is an essential specification that affects overall performance and responsiveness.

Benefits of a Higher Base Clock Speed

A higher base clock speed offers several advantages to users:

• Improved Single-Threaded Performance: The base clock speed directly impacts the performance of single-threaded applications. With a higher base clock speed, tasks that rely on a single core can be executed faster, resulting in improved responsiveness and smooth operation.
• Reduced Latency: Latency refers to the delay between initiating a task and its execution. A higher base clock speed helps minimize latency, ensuring faster response times for user interactions and reducing any perceived lag or delay.
• Better Overall Performance: The base clock speed contributes significantly to the overall performance of the processor. With a higher base clock speed, the processor can handle tasks more efficiently, resulting in improved productivity and reduced processing time.

Applications that Benefit from Higher Base Clock Speed

The HPE Xeon Gold 6138 Processor Kit with its base clock speed of 2.0GHz is well-suited for the following types of applications:

1. Gaming

Gaming relies heavily on single-threaded performance, as most games do not utilize multiple cores effectively. A higher base clock speed ensures smoother gameplay, reduced frame drops, and improved overall gaming experience.

2. Office Productivity

For everyday tasks such as web browsing, document editing, and email management, a higher base clock speed enhances overall responsiveness and productivity. Users can enjoy a snappy and lag-free experience while performing routine office tasks.

3. Single-Threaded Applications

Certain applications, such as accounting software or legacy software that is not optimized for multi-threading, primarily rely on single-core performance. A higher base clock speed ensures faster execution of these applications, resulting in improved efficiency and reduced waiting times.

L3 Cache

The HPE Xeon Gold 6138 Processor Kit boasts an L3 cache size of 27.5MB. The L3 cache is a high-speed memory integrated into the processor that stores frequently accessed data for quick retrieval by the cores. It plays a vital role in enhancing the processor's performance by reducing memory latency and improving overall efficiency.

Benefits of a Larger L3 Cache

A larger L3 cache offers several advantages to users:

• Reduced Memory Latency: The larger the L3 cache, the more data can be stored closer to the cores, reducing the need to access slower system memory. This results in reduced memory latency and faster data retrieval, enhancing overall performance.
• Improved Multi-Threaded Performance: A larger L3 cache allows for better sharing of data between cores, which is particularly beneficial for multi-threaded applications. It enables faster communication and data exchange between cores, resulting in improved performance in tasks that utilize multiple threads.
• Better Responsiveness: With a larger L3 cache, frequently accessed data can be stored closer to the cores, ensuring quick retrieval. This leads to improved responsiveness in applications, reducing waiting times and providing a smoother user experience.

Applications that Benefit from a Larger L3 Cache

The HPE Xeon Gold 6138 Processor Kit with its substantial L3 cache size of 27.5MB is well-suited for the following types of applications:

1. Database Management

Database management systems often involve frequent data access and retrieval operations. A larger L3 cache ensures faster data retrieval, resulting in improved database query performance and reduced response times.

2. Virtualization

In virtualized environments, multiple virtual machines compete for system resources. A larger L3 cache allows for efficient sharing of data between virtual machines, reducing latency and enhancing overall virtualization performance.

3. Content Creation and Editing

Content creation applications such as image editing or video rendering often require frequent access to large files and assets. The larger L3 cache of the HPE Xeon Gold 6138 ensures quick access to these files, allowing for faster rendering times and improved productivity.

UPI Speed

The HPE Xeon Gold 6138 Processor Kit features a UPI (Ultra Path Interconnect) speed of 10.4GT/s. UPI is a high-speed interconnect technology that facilitates communication between processors in multi-socket systems. The UPI speed is crucial for ensuring efficient data transfer and synchronization between processors.

Benefits of a Higher UPI Speed

A higher UPI speed offers several benefits to users:

• Faster Inter-Processor Communication: The UPI speed determines the rate at which data can be exchanged between processors in a multi-socket system. A higher UPI speed enables faster inter-processor communication, reducing latency and improving overall system performance.
• Enhanced Scalability: In systems with multiple processors, a higher UPI speed allows for better scalability and workload distribution. It ensures efficient utilization of all processors, maximizing system performance in resource-intensive applications.
• Improved System Responsiveness: With a higher UPI speed, data can be synchronized and shared between processors more quickly. This results in improved system responsiveness, reduced waiting times, and enhanced user experience.

Applications that Benefit from a Higher UPI Speed

The HPE Xeon Gold 6138 Processor Kit with its UPI speed of 10.4GT/s is particularly suitable for the following types of applications:

1. High-Performance Computing

In high-performance computing (HPC) environments, multiple processors work together to solve complex scientific or engineering problems. A higher UPI speed enables faster communication between processors, improving overall HPC performance and reducing time-to-solution.

2. Database Clustering

Database clusters involve multiple servers working together to handle high data loads and ensure system redundancy. A higher UPI speed allows for efficient communication between servers, ensuring seamless synchronization and improved database cluster performance.

3. Data-Intensive Applications

Data-intensive applications, such as real-time analytics or large-scale simulations, require efficient data transfer between processors. A higher UPI speed enhances the performance of these applications by enabling faster data exchange and synchronization between processors.

Socket Type

The HPE Xeon Gold 6138 Processor Kit features the FCLGA3647 socket type. The socket type refers to the physical interface between the processor and the motherboard. It is essential to ensure compatibility between the processor and the motherboard for proper installation and optimal performance.

Benefits of FCLGA3647 Socket Type

The FCLGA3647 socket type offers several benefits to users:

• Compatibility: The FCLGA3647 socket type is widely supported by server-grade motherboards, ensuring compatibility with a range of systems. Users can easily find compatible motherboards that support the HPE Xeon Gold 6138 Processor Kit.
• Scalability: The FCLGA3647 socket type is designed for high-performance server applications. It allows for scalability, enabling users to upgrade their systems with more powerful processors in the future without changing the motherboard.
• Reliability: The FCLGA3647 socket type provides a secure and reliable connection between the processor and the motherboard. It ensures proper electrical contact and thermal dissipation, promoting stable operation even under heavy workloads.

Importance of Socket Type Compatibility

Ensuring socket type compatibility is crucial for the following reasons:

1. Proper Installation

Using a processor with the correct socket type ensures proper installation and alignment with the motherboard. This is essential for establishing a stable connection and preventing any damage to the processor or motherboard during installation.

2. Optimal Performance

Using a compatible socket type ensures that the processor's features and capabilities are fully supported by the motherboard. This allows for optimal performance, including proper power delivery, memory support, and compatibility with other system components.

3. Future Upgradability

Choosing a processor with a widely supported socket type, such as FCLGA3647, enables future upgradability. Users can easily swap out their existing processor for a more powerful one without the need to replace the entire motherboard, saving costs and ensuring compatibility.

Manufacturing Technology

The HPE Xeon Gold 6138 Processor Kit is manufactured using 14nm (nanometer) technology. The manufacturing technology refers to the size of the transistors used in the processor's fabrication process. A smaller nanometer measurement indicates a more advanced and efficient manufacturing process.

Benefits of 14nm Manufacturing Technology

The use of 14nm manufacturing technology offers several benefits to users:

• Improved Energy Efficiency: Smaller transistors require less power to operate, resulting in improved energy efficiency. The HPE Xeon Gold 6138 Processor Kit manufactured using 14nm technology consumes less power while delivering high-performance capabilities.
• Increased Performance: The smaller size of transistors allows for more transistors to be packed into the same physical space. This enables the processor to have a higher transistor count, resulting in increased processing power and improved performance.
• Better Heat Dissipation: Smaller transistors dissipate heat more efficiently, reducing the risk of overheating. This allows the processor to operate at optimal temperatures, promoting stability and longevity.

Importance of Manufacturing Technology

The choice of manufacturing technology is crucial for the following reasons:

1. Power Efficiency

A more advanced manufacturing technology, such as 14nm, ensures better power efficiency by reducing power leakage and improving energy consumption. This results in lower operating costs and reduced environmental impact.

2. Performance Optimization

A smaller manufacturing technology allows for the integration of more transistors, enabling higher transistor counts and improved processing power. This optimization translates into better overall performance and the ability to handle demanding tasks efficiently.

3. Heat Management

Smaller transistors dissipate heat more effectively, reducing the risk of thermal throttling and ensuring stable operation even under heavy workloads. This is essential for maintaining system reliability and preventing performance degradation.

Power Consumption

The HPE Xeon Gold 6138 Processor Kit has a power consumption rating of 125W. Power consumption refers to the amount of electrical power required by the processor during operation. It is an important consideration for system builders and users concerned about energy efficiency and operating costs.

Benefits of Lower Power Consumption

A lower power consumption rating offers several benefits to users:

• Energy Efficiency: Processors with lower power consumption ratings contribute to overall energy efficiency, reducing electricity usage and associated costs. This is particularly important for systems that operate continuously or in energy-conscious environments.
• Cooler Operation: Lower power consumption results in reduced heat generation. This promotes cooler operation and contributes to improved system stability and longevity by minimizing the risk of overheating.
• Environmental Impact: By consuming less power, processors with lower power consumption ratings help reduce the carbon footprint and environmental impact associated with electricity generation.

Importance of Power Consumption

Power consumption is a significant consideration for the following reasons:

1. Operating Costs

A processor with lower power consumption can significantly reduce operating costs, especially in scenarios where multiple processors are used or where systems operate continuously. Lower energy consumption translates to cost savings over the long term.

2. Thermal Management

Lower power consumption results in less heat generation, easing the burden on cooling systems. This allows for more efficient thermal management, promoting stable operation and reducing the risk of thermal-related issues.

3. Environmental Responsibility

Reducing power consumption contributes to environmental sustainability by lowering the demand for electricity. By choosing processors with lower power consumption ratings, users can actively participate in reducing their carbon footprint and conserving natural resources.

Part Number

The HPE Xeon Gold 6138 Processor Kit is identified by the part number 874291-B21. The part number serves as a unique identifier for the specific product variant and is essential for accurate ordering, compatibility verification, and technical support.

Benefits of Part Number Identification

Accurate identification and utilization of the part number offer several benefits to users:

• Compatibility Verification: The part number allows users to verify whether the processor is compatible with their system and intended