HPE DL380 GEN10 Server 869090-B21 Intel Xeon Platinum 8158 12 Core 3.0GHz Kit

Core Count: 12

The HPE Intel Xeon Platinum 8158 Processor is equipped with an impressive core count of 12. This means that it has 12 individual processing units, or cores, that can handle multiple tasks simultaneously. The high core count of this processor makes it an ideal choice for users who require a high level of multitasking and computing power.

Improved Performance

With 12 cores, the HPE Intel Xeon Platinum 8158 Processor delivers exceptional performance. The increased number of cores allows for better parallel processing, enabling faster execution of tasks and improved overall system performance. Whether you are running complex simulations, analyzing large datasets, or running multiple virtual machines, the 12-core design ensures that you can handle demanding workloads with ease.

Enhanced Multitasking

One of the key benefits of a higher core count is the ability to handle multiple tasks simultaneously. With 12 cores, the HPE Intel Xeon Platinum 8158 Processor allows for efficient multitasking. Whether you are editing videos, rendering animations, or running multiple applications at once, you can expect smooth and responsive performance without any noticeable slowdowns.

Optimized Resource Allocation

The 12-core design of this processor also enables efficient resource allocation. Each core can be assigned to specific tasks, ensuring that resources are utilized effectively. This means that critical tasks can be allocated to dedicated cores while less demanding tasks can be assigned to other cores. The result is improved efficiency and faster task completion times.

Highly Scalable

In addition to the immediate benefits of 12 cores, the HPE Intel Xeon Platinum 8158 Processor also offers scalability for future growth. As your computing needs increase, you can easily scale your system by adding more processors. With each processor providing an additional 12 cores, you can expand your computing power and handle even more demanding workloads.

Ideal for Server Applications

The 12-core design of this processor makes it an excellent choice for server applications. Servers often handle multiple tasks simultaneously, such as web hosting, database management, and virtualization. The high core count ensures that the server can efficiently handle these tasks without any performance bottlenecks.

Improved Virtualization Performance

Virtualization is a key feature of modern server environments. With 12 cores, the HPE Intel Xeon Platinum 8158 Processor excels in virtualized environments. Each virtual machine can be assigned to a dedicated core, allowing for efficient resource allocation and preventing performance degradation across multiple virtual machines.

Reduced Downtime

The 12-core design also provides redundancy in case of a failure. If one or more cores experience issues, the remaining cores can continue to handle the workload without interruption. This ensures minimal downtime and improved reliability for critical server applications.

Base Clock Speed: 3.0GHz

The base clock speed of the HPE Intel Xeon Platinum 8158 Processor is set at an impressive 3.0GHz. The base clock speed refers to the frequency at which the processor operates without any turbo boost or overclocking. This feature plays a crucial role in determining the overall performance and responsiveness of the processor.

Fast and Responsive Performance

A higher base clock speed translates into faster and more responsive performance. The 3.0GHz base clock speed of this processor ensures that it can handle demanding tasks with ease. Whether you are running resource-intensive applications or performing complex calculations, the high base clock speed ensures that you experience smooth and lag-free performance.

Efficient Task Execution

The base clock speed also affects the speed at which individual tasks are executed. With a higher base clock speed, tasks can be completed more quickly, resulting in improved overall system efficiency. This is particularly important for tasks that require real-time processing or have strict deadlines.

Seamless Multitasking

The 3.0GHz base clock speed enables seamless multitasking. Whether you are working on multiple applications simultaneously or running several virtual machines, the high base clock speed ensures that each task is executed efficiently without any noticeable slowdowns.

Improved Gaming Performance

Gamers can also benefit from the high base clock speed of the HPE Intel Xeon Platinum 8158 Processor. Games often require fast and responsive performance to deliver smooth gameplay. The 3.0GHz base clock speed ensures that the processor can handle demanding games without any lag or stuttering.

Reduced Render Times

For professionals working with graphics-intensive applications, such as video editing or 3D rendering software, the 3.0GHz base clock speed significantly reduces render times. Complex rendering tasks can be completed more quickly, allowing for faster project turnaround and increased productivity.

Real-Time Data Processing

The high base clock speed is essential for real-time data processing applications. Whether you are analyzing stock market data, processing sensor data in IoT applications, or running simulations that require immediate feedback, the 3.0GHz base clock speed ensures that data is processed in real-time without any delays.

Smooth Streaming and Content Creation

The HPE Intel Xeon Platinum 8158 Processor with its 3.0GHz base clock speed is also well-suited for streaming and content creation. Streaming high-quality video requires a powerful processor that can handle the encoding and decoding tasks in real-time. Content creators can also benefit from the fast base clock speed when editing and rendering videos or working with large image files.

Cache Size: 24.75MB L3

The HPE Intel Xeon Platinum 8158 Processor features a generous cache size of 24.75MB L3. The cache is a small, high-speed memory that stores frequently accessed data to reduce the latency of memory access. A larger cache size provides several benefits in terms of performance and efficiency.

Faster Data Access

The larger cache size of 24.75MB L3 allows for faster data access. When the processor needs to retrieve data, it first checks the cache to see if the data is already stored there. If the data is found in the cache, it can be accessed much more quickly than if it had to be retrieved from the main memory. This results in faster overall system performance.

Reduced Memory Latency

A larger cache size also helps to reduce memory latency. Latency refers to the time it takes for the processor to access data from the main memory. By storing frequently accessed data in the cache, the processor can minimize the number of times it needs to access the main memory, reducing overall latency and improving system responsiveness.

Improved Instruction Execution

The larger cache size enhances instruction execution efficiency. Instructions are small units of code that tell the processor what operations to perform. By storing frequently used instructions in the cache, the processor can quickly retrieve them when needed, improving overall execution speed and efficiency.

Better Gaming Performance

Gamers can benefit from the larger cache size of the HPE Intel Xeon Platinum 8158 Processor. Games often require quick access to game data, such as textures, models, and sound files. With a larger cache size, the processor can store more game data, reducing load times and improving overall gaming performance.

Accelerated Content Creation

Content creators, such as video editors and graphic designers, can also take advantage of the larger cache size. Working with large files, such as high-resolution images or video footage, can be resource-intensive. The larger cache size allows for faster access to these files, reducing rendering and processing times and improving productivity.

Efficient Data Analytics

For users involved in data analytics or scientific computing, the larger cache size is highly beneficial. These applications often involve processing large datasets. With a larger cache size, the processor can store frequently accessed data in the cache, reducing the need to retrieve data from external storage devices or databases. This results in faster data analysis and improved overall efficiency.

Optimized Virtualization Performance

In virtualized environments, where multiple virtual machines are running simultaneously, a larger cache size helps to improve performance. Each virtual machine requires its own set of instructions and data. With a larger cache size, the processor can store more of this information, reducing the need to constantly access the main memory. This leads to improved virtual machine performance and responsiveness.

Socket Type: Fclga3647

The HPE Intel Xeon Platinum 8158 Processor is designed with a socket type of Fclga3647. The socket type refers to the physical interface between the processor and the motherboard. It determines compatibility and plays a crucial role in system performance and upgradability.

Compatibility with DL380 GEN10 Server

The Fclga3647 socket type of this processor is specifically designed to be compatible with the DL380 GEN10 Server. This server is widely used in enterprise environments for various applications, such as virtualization, database management, and web hosting. The Fclga3647 socket type ensures that the processor can be seamlessly installed in the server, providing optimal performance and compatibility.

Future Upgradeability

The socket type also determines the upgradability of the system. With the Fclga3647 socket type, users can easily upgrade their processors to higher-performance models in the future. This provides a cost-effective way to improve system performance without having to replace the entire server or motherboard.

Enhanced System Performance

The Fclga3647 socket type ensures a secure and stable connection between the processor and the motherboard. This direct connection allows for fast and efficient data transfer, resulting in enhanced system performance. The secure connection also reduces the risk of data loss or corruption during high-speed data transfers.

Enterprise-Grade Reliability

For enterprise environments, reliability is a critical factor. The Fclga3647 socket type provides a robust and reliable connection between the processor and the motherboard. This ensures uninterrupted operation and reduces the risk of system failures or downtime.

Efficient Heat Dissipation

The Fclga3647 socket type is designed to facilitate efficient heat dissipation. Processors generate heat during operation, and effective heat dissipation is crucial to prevent overheating and maintain optimal performance. The Fclga3647 socket type allows for efficient heat transfer from the processor to the cooling system, ensuring that the processor operates within safe temperature limits.

Scalability for Growing Needs

The Fclga3647 socket type also offers scalability for growing computing needs. As your requirements increase, you can easily upgrade to a higher-performance processor without having to change the entire system. This allows for seamless scalability and future-proofing of your infrastructure.

Support for Advanced Features

The Fclga3647 socket type supports advanced features and technologies. This includes support for high-speed memory modules, multiple PCIe lanes for expansion cards, and advanced power management features. The Fclga3647 socket type ensures that the processor can take full advantage of these features, maximizing system performance and efficiency.

Manufacturing Technology: 14NM

The HPE Intel Xeon Platinum 8158 Processor is manufactured using the advanced 14nm manufacturing technology. The manufacturing technology refers to the size of the transistors used in the processor's construction. A smaller manufacturing technology offers several benefits in terms of performance, power consumption, and efficiency.

Improved Performance

The 14nm manufacturing technology allows for the creation of smaller transistors, which results in higher transistor density on the processor die. This increased density allows for more transistors to be packed into a smaller space, leading to improved performance. With more transistors, the processor can handle more instructions simultaneously, resulting in faster execution of tasks.

Lower Power Consumption

A smaller manufacturing technology also contributes to lower power consumption. Smaller transistors require less power to switch on and off, resulting in reduced power consumption. This leads to increased energy efficiency and lower operating costs. The 14nm manufacturing technology ensures that the HPE Intel Xeon Platinum 8158 Processor delivers optimal performance without excessive power consumption.

Heat Dissipation Efficiency

The 14nm manufacturing technology also improves heat dissipation efficiency. Smaller transistors generate less heat during operation, allowing for more efficient heat dissipation. This is particularly important for high-performance processors that require effective cooling to maintain optimal operating temperatures. The 14nm manufacturing technology ensures that the processor operates within safe temperature limits.

Higher Clock Speeds

The smaller transistors made possible by the 14nm manufacturing technology enable higher clock speeds. Clock speed refers to the frequency at which the processor operates and directly affects its performance. With smaller transistors, the processor can achieve higher clock speeds, resulting in improved overall system performance.

Increased Energy Efficiency

Energy efficiency is a significant consideration for many users. The 14nm manufacturing technology allows for greater energy efficiency by reducing power leakage and improving power management capabilities. This results in lower power consumption and reduced environmental impact.

Extended Battery Life

For users of laptops or mobile devices equipped with the HPE Intel Xeon Platinum 8158 Processor, the 14nm manufacturing technology contributes to extended battery life. The reduced power consumption and improved energy efficiency ensure that the processor consumes less power, leading to longer battery life and increased productivity on the go.

Reliable Performance

The 14nm manufacturing technology also contributes to the overall reliability and stability of the processor. Smaller transistors are less prone to manufacturing defects and provide improved performance reliability. This ensures that the HPE Intel Xeon Platinum 8158 Processor delivers consistent and reliable performance even under heavy workloads or demanding applications.

Power Consumption: 150W

The HPE Intel Xeon Platinum 8158 Processor has a power consumption rating of 150W. Power consumption refers to the amount of electrical power consumed by the processor during operation. This feature is important for several reasons, including energy efficiency, system stability, and cooling requirements.

Energy Efficiency

The 150W power consumption rating of this processor ensures energy efficiency. By consuming less power, the processor reduces energy costs and lowers environmental impact. This is particularly important for users who operate large server farms or data centers, where energy consumption can be a significant expense.

Stable System Operation

The power consumption rating also plays a crucial role in maintaining stable system operation. The power supply unit (PSU) of the system is designed to deliver a specific amount of power, and exceeding this limit can cause instability or system failures. The 150W power consumption rating ensures that the processor operates within safe limits and does not exceed the capabilities of the PSU.

Thermal Management

A high-performance processor generates heat during operation, and effective thermal management is essential to prevent overheating. The 150W power consumption rating helps determine the cooling requirements for the processor. It ensures that adequate cooling measures are in place to dissipate heat efficiently and maintain optimal operating temperatures.

Optimized Cooling Solutions

The 150W power consumption rating allows system builders to choose appropriate cooling solutions for the processor. This includes selecting suitable heat sinks, fans, or liquid cooling systems that can handle the thermal load generated by the processor effectively. Optimized cooling solutions contribute to improved system stability and longevity.

Reduced Operating Costs

For businesses operating large server installations, the 150W power consumption rating translates into reduced operating costs. By consuming less power, the processor helps lower electricity bills and reduces overall operational expenses. This is particularly important for organizations that require high-performance computing capabilities while maintaining cost-efficiency.