HPE P24949-B21 Xeon Gold 6226r 16-core Processor

Cores (16)

Enhanced Performance

The HPE Xeon Gold 6226r Processor is equipped with 16 cores, offering enhanced performance for users. With a higher number of cores, the processor can handle multiple tasks simultaneously, resulting in improved productivity and faster processing speeds. Whether you are running complex applications, virtualizing servers, or performing data-intensive tasks, the 16 cores ensure smooth and efficient performance.

Parallel Processing

The 16 cores in the HPE Xeon Gold 6226r Processor enable parallel processing, allowing for the execution of multiple threads simultaneously. This means that you can run multiple applications or processes without experiencing any slowdowns. The increased parallelism not only enhances overall system performance but also improves multitasking capabilities, enabling users to accomplish more in less time.

Optimized Workloads

The abundance of cores in this processor enables it to handle heavy workloads effortlessly. Whether you are a professional content creator working with resource-intensive software or a data scientist dealing with complex computations, the 16 cores ensure that your processor can handle the demands of your workload efficiently. This results in faster rendering times, quicker data analysis, and smoother overall performance.

Virtualization

If you are running virtualized environments or managing multiple virtual machines, the 16 cores offer significant benefits. Each virtual machine can be assigned dedicated cores, allowing for optimal performance and preventing resource contention. With more cores available, you can allocate resources more effectively, ensuring smooth operation and responsiveness across all virtual machines.

Gaming and Multimedia

Gamers and multimedia enthusiasts can also benefit from the 16 cores in the HPE Xeon Gold 6226r Processor. Many modern games and multimedia applications are designed to take advantage of multiple cores, allowing for better graphics rendering, faster video encoding, and smoother gameplay. With 16 cores at your disposal, you can enjoy a seamless and immersive gaming or multimedia experience without any performance bottlenecks.

Future-Proofing

Investing in a processor with 16 cores ensures that your system is future-proofed to some extent. As software and applications continue to evolve and become more demanding, having more cores will become increasingly important for optimal performance. By choosing the HPE Xeon Gold 6226r Processor with its 16 cores, you can ensure that your system remains capable of handling future workloads and advancements in technology.

Base Clock Speed (2.90GHz)

Improved Responsiveness

The base clock speed of the HPE Xeon Gold 6226r Processor is set at 2.90GHz, providing users with improved responsiveness and snappy performance. The higher the clock speed, the faster the processor can execute instructions, resulting in reduced latency and quicker response times. Whether you are launching applications, loading files, or performing everyday tasks, the 2.90GHz base clock speed ensures a smooth and lag-free experience.

Single-Threaded Performance

The base clock speed is particularly crucial for single-threaded applications that rely on a single core for execution. In such cases, the higher base clock speed of 2.90GHz allows the processor to complete tasks faster, resulting in improved single-threaded performance. This is especially beneficial for tasks that are not easily parallelizable or heavily dependent on a single core's processing power.

Overclocking Potential

The base clock speed of 2.90GHz serves as a solid foundation for potential overclocking. Overclocking refers to increasing the clock speed of the processor beyond its default settings to achieve even higher performance. With a higher base clock speed, users have more headroom for overclocking, allowing them to push the processor's limits and extract additional performance gains if desired.

Demanding Applications

Applications that require significant processing power, such as video editing software or 3D rendering applications, can benefit greatly from the higher base clock speed. These applications often involve real-time rendering and complex calculations, which can be executed more quickly with a faster base clock speed. The 2.90GHz base clock speed ensures that your processor can handle these demanding tasks efficiently and without any noticeable slowdowns.

Gaming Performance

Gamers can also enjoy improved performance with the 2.90GHz base clock speed. Many games rely heavily on single-threaded performance, and a higher base clock speed ensures that the processor can handle the game's instructions swiftly. This results in smoother gameplay, reduced input lag, and faster loading times, enhancing the overall gaming experience.

Efficient Multitasking

The higher base clock speed of 2.90GHz enables efficient multitasking. When running multiple applications simultaneously, each application can receive its fair share of processing power, ensuring responsive performance across the board. Whether you are working on a complex project while streaming videos or multitasking between various resource-intensive applications, the 2.90GHz base clock speed keeps everything running smoothly.

Bus Speed (10.4GT/S)

High-Speed Data Transfer

The bus speed of the HPE Xeon Gold 6226r Processor is rated at 10.4GT/S, providing users with high-speed data transfer capabilities. The bus speed determines how quickly data can be transferred between different components of the system, such as the processor, memory, and peripherals. A higher bus speed ensures faster communication and reduces data bottlenecks, resulting in improved overall system performance.

Memory Performance

The bus speed plays a crucial role in memory performance. With a higher bus speed of 10.4GT/S, the processor can communicate with the memory modules more quickly, reducing latency and improving memory access times. This translates into snappier application launches, faster data retrieval, and smoother multitasking capabilities.

Accelerated I/O Operations

The high bus speed of 10.4GT/S accelerates input/output (I/O) operations, allowing for faster data transfer between the processor and connected devices such as storage drives, graphics cards, and network adapters. This is particularly beneficial for tasks that involve large file transfers, real-time streaming, or data-intensive operations. The increased I/O performance ensures that data can be processed and transferred swiftly without causing any noticeable delays or slowdowns.

Server Performance

For server applications that handle a high volume of requests and data transfers, a higher bus speed is essential. The 10.4GT/S bus speed ensures efficient communication between the processor and other components within the server, resulting in improved server performance and reduced latency. This is particularly important for mission-critical applications or databases that require fast access to data.

Gaming and Multimedia

Gamers and multimedia enthusiasts can benefit from the high bus speed as well. Games with large textures or graphics-intensive applications can transfer data more quickly to the graphics card, resulting in smoother gameplay and better overall performance. Additionally, multimedia applications that involve real-time video editing or rendering can take advantage of the high bus speed to ensure fast data transfer between the processor and storage devices.

Efficient Virtualization

For virtualized environments, the high bus speed enhances performance and responsiveness. In virtualized setups, multiple virtual machines share resources, including data transfer capabilities. The 10.4GT/S bus speed ensures that data can be transferred swiftly between the processor and the virtual machines, allowing for efficient resource allocation and preventing any bottlenecks that could impact performance.

Cache (22MB)

Faster Data Access

The HPE Xeon Gold 6226r Processor features a cache size of 22MB, enabling faster data access and retrieval. The cache serves as a temporary storage area for frequently accessed data, reducing the need to access slower main memory. With a larger cache size, the processor can store more data closer to the cores, resulting in reduced latency and faster execution of instructions.

Improved Performance

A larger cache size improves overall system performance by reducing the time required to fetch data from main memory. When an application or process requires access to data, the processor first checks the cache for its availability. If the data is found in the cache, it can be retrieved quickly, resulting in improved performance. With a 22MB cache size, the HPE Xeon Gold 6226r Processor can store a significant amount of frequently accessed data, leading to faster execution times.

Efficient Multitasking

The larger cache size also enhances multitasking capabilities. When running multiple applications simultaneously, each application can have its own portion of the cache, reducing contention and ensuring that frequently accessed data remains readily available. This allows for efficient context switching between applications and prevents unnecessary delays caused by waiting for data to be fetched from main memory.

Complex Workloads

Complex workloads that involve large datasets or require extensive data manipulation can benefit greatly from the larger cache size. Tasks such as scientific simulations, financial modeling, or machine learning algorithms often involve repeated access to large amounts of data. With a 22MB cache, the processor can store more of this data, significantly reducing the time required for data retrieval and manipulation.

Virtualized Environments

In virtualized environments, a larger cache size can improve overall performance and responsiveness. When multiple virtual machines are running on a single physical server, each virtual machine can benefit from the larger cache size, resulting in faster data access and improved processing speeds. This ensures that each virtual machine receives the necessary resources for optimal performance.

Gaming and Multimedia

Gamers and multimedia enthusiasts can also experience improved performance with a larger cache size. Games and multimedia applications often access large amounts of data, such as textures, audio files, or video frames. With a 22MB cache, the processor can store more of this data, reducing load times and ensuring smooth playback or rendering.

Manufacturing Technology (14NM)

Efficiency and Power Consumption

The HPE Xeon Gold 6226r Processor is manufactured using a 14nm manufacturing technology. The smaller the manufacturing process, the more transistors can be packed into the same physical space, resulting in improved efficiency and reduced power consumption. The 14nm manufacturing technology allows for higher transistor density, enabling the processor to deliver more processing power while consuming less energy.

Improved Thermal Management

A smaller manufacturing process results in better thermal management capabilities. With the 14nm manufacturing technology, the HPE Xeon Gold 6226r Processor can dissipate heat more efficiently, ensuring that the processor operates within acceptable temperature ranges. This is crucial for maintaining system stability and preventing thermal throttling, which can negatively impact performance.

Higher Clock Speed Potential

The 14nm manufacturing technology enables higher clock speeds for processors. With more transistors packed into a smaller space, the processor can switch between states more quickly, allowing for higher clock speeds. This means that the HPE Xeon Gold 6226r Processor has the potential to achieve even greater performance by pushing its clock speed higher while remaining within acceptable thermal limits.

Energy Efficiency

The 14nm manufacturing technology results in improved energy efficiency for the HPE Xeon Gold 6226r Processor. The smaller transistors require less power to switch states, reducing overall power consumption. This is beneficial for users who prioritize energy efficiency or have strict power consumption requirements, such as data centers or organizations aiming to reduce their carbon footprint.

Long-Term Cost Savings

Due to its improved energy efficiency, the HPE Xeon Gold 6226r Processor can lead to long-term cost savings. By consuming less power, the processor reduces electricity bills and lowers operational costs. Furthermore, the reduced power consumption translates into less heat generation, resulting in lower cooling requirements. This can lead to additional savings on cooling infrastructure and maintenance.

Reliability and Longevity

The 14nm manufacturing technology contributes to the reliability and longevity of the processor. The improved thermal management ensures that the processor operates within safe temperature ranges, reducing the risk of premature failure or degradation due to excessive heat. Additionally, the smaller transistors are less prone to manufacturing defects and offer improved resistance to electromigration, enhancing the overall reliability and lifespan of the processor.

Power Consumption (150W)

Optimal Performance

The HPE Xeon Gold 6226r Processor has a power consumption of 150W. While power consumption may seem like a concern, it is important to note that the 150W power consumption allows the processor to deliver optimal performance. The higher power consumption enables the processor to operate at higher clock speeds and handle demanding workloads efficiently.

Performance-to-Power Ratio

When evaluating processors, it is essential to consider the performance-to-power ratio. The HPE Xeon Gold 6226r Processor strikes a balance between power consumption and performance, ensuring that users get the most out of their system without excessive energy usage. With a power consumption of 150W, the processor offers excellent performance while keeping power efficiency in mind.

Workload Flexibility

The 150W power consumption of the HPE Xeon Gold 6226r Processor allows it to handle a wide range of workloads efficiently. Whether you are running resource-intensive applications, virtualized environments, or performing data analysis tasks, the processor can adapt to the demands of your workload and deliver responsive performance without compromising power efficiency.

Data Centers

In data center environments where multiple processors are deployed, power consumption becomes a critical factor. The 150W power consumption of the HPE Xeon Gold 6226r Processor ensures that data centers can achieve high-performance computing while maintaining manageable power levels. This allows data centers to optimize their operations and reduce energy costs without sacrificing processing capabilities.

Reduced Operational Costs

While the HPE Xeon Gold 6226r Processor has a higher power consumption, it can still contribute to cost savings in the long run. The efficient performance of the processor allows tasks to be completed more quickly, reducing the overall time required for resource-intensive operations. This can lead to operational cost savings, especially in scenarios where time is a critical factor, such as data analysis or rendering farms.

Environmental Considerations

The 150W power consumption of the HPE Xeon Gold 6226r Processor aligns with environmental considerations. By delivering high performance within acceptable power limits, the processor helps reduce energy waste and carbon emissions. This makes it an ideal choice for organizations aiming to minimize their environmental impact and adopt more sustainable computing practices.

Part Number (P24949-B21)

Identification and Compatibility

The part number of the HPE Xeon Gold 6226r Processor is P24949-B21. This unique identifier helps users identify and verify the specific processor model they are using or considering for their system. The part number ensures compatibility with the intended hardware and provides a reliable reference for support and troubleshooting purposes.

Easy Ordering and Replacement

The part number simplifies the ordering process when purchasing or replacing processors. By specifying the part number, users can ensure that they receive the exact model they require, eliminating any confusion or compatibility issues. Additionally, when seeking replacements or upgrades, the part number facilitates precise identification, ensuring seamless integration into existing systems.

Support and Documentation

The part number serves as a valuable reference when seeking support or accessing documentation related to the HPE Xeon Gold 6226r Processor. Support representatives can quickly identify the processor model based on its part number, enabling them to provide accurate assistance and troubleshooting guidance. The part number also helps users locate relevant documentation, such as user manuals or technical specifications.

System Optimization

By utilizing the correct part number, users can ensure that their system is optimized for performance and compatibility. The HPE Xeon Gold 6226r Processor with part number P24949-B21 is specifically designed to work