HPE 872121-B21 Xeon Platinum 8170 26-Core Processor

Core Count: 26

Improved Multitasking and Performance

The HPE Xeon Platinum 8170 Processor boasts an impressive core count of 26, making it a powerful and capable option for users who require high-performance computing. With more cores, the processor can handle multiple tasks simultaneously, allowing for improved multitasking capabilities. This is particularly beneficial for users who engage in resource-intensive activities such as video editing, 3D rendering, or running virtual machines.

Enhanced Parallel Processing

The increased core count also leads to enhanced parallel processing, which is crucial for applications that can take advantage of multiple cores. Tasks that can be divided into smaller sub-tasks and processed simultaneously will benefit greatly from the additional cores. This results in faster execution times and improved overall performance.

Optimized Workload Distribution

Having more cores enables the processor to distribute workloads more efficiently. Each core can handle a specific task or set of instructions, ensuring that resources are utilized effectively. This feature is particularly important for businesses and professionals who rely on their computing systems to perform complex calculations or data analysis. The HPE Xeon Platinum 8170 Processor's 26-core count ensures that workloads are distributed evenly, maximizing productivity and reducing processing time.

High Scalability

The large core count of the HPE Xeon Platinum 8170 Processor also provides scalability options for users who require additional processing power in the future. As technologies advance and software becomes more demanding, having a higher core count ensures that your system remains capable of handling future workloads without the need for a complete overhaul or replacement of the processor. This scalability is crucial for businesses and professionals who want to future-proof their computing infrastructure.

Advanced Virtualization Capabilities

Virtualization is a key component of modern computing environments, allowing users to create virtual machines and run multiple operating systems simultaneously. The HPE Xeon Platinum 8170 Processor's 26-core count enables advanced virtualization capabilities, making it an ideal choice for users who rely heavily on virtualization technologies. With more cores, users can allocate resources to each virtual machine more effectively, resulting in improved performance and better overall system management.

Enhanced Gaming Experience

Gamers can also benefit from the HPE Xeon Platinum 8170 Processor's 26-core count. Many modern games are designed to take advantage of multiple cores, allowing for improved graphics rendering, physics simulations, and overall game performance. With more cores available, gamers can enjoy smoother gameplay, reduced lag, and enhanced visual effects.

Base Clock Speed: 2.1GHz

Efficient Task Execution

The base clock speed of the HPE Xeon Platinum 8170 Processor is set at an impressive 2.1GHz. The base clock speed represents the frequency at which the processor operates under normal conditions without any overclocking. A higher base clock speed ensures efficient task execution, as the processor can complete instructions at a faster rate.

Seamless Multitasking

With a higher base clock speed, the HPE Xeon Platinum 8170 Processor can handle multiple tasks simultaneously with ease. This is especially important for users who engage in multitasking activities such as running multiple applications or working on complex projects that require real-time responsiveness. The higher clock speed allows for seamless multitasking without experiencing significant performance degradation.

Quick Startup and Responsiveness

The HPE Xeon Platinum 8170 Processor's high base clock speed contributes to quick system startup times and overall system responsiveness. Users can expect faster boot times, reduced application launch times, and a more responsive computing experience in general. This is particularly beneficial for professionals who rely on their computing systems to perform time-sensitive tasks or for gamers who want to minimize loading times and delays during gameplay.

Smooth Multimedia Playback

The higher base clock speed also enhances multimedia playback performance. Users can enjoy smooth video streaming, flawless playback of high-definition content, and seamless audio rendering. This is particularly important for professionals who work with multimedia content such as video editing or 3D modeling, as it ensures accurate representation and playback of their work.

Improved Single-Core Performance

While the HPE Xeon Platinum 8170 Processor's core count provides excellent multitasking capabilities, the high base clock speed also contributes to improved single-core performance. Certain applications and tasks may not be able to take full advantage of multiple cores and instead rely on a single core for execution. In such cases, the higher base clock speed ensures that these tasks are performed quickly and efficiently.

Efficient Power Consumption

Despite its high base clock speed, the HPE Xeon Platinum 8170 Processor is designed to consume power efficiently. This is achieved through advanced power management technologies that allow the processor to dynamically adjust its power consumption based on workload demands. The efficient power consumption ensures that users can enjoy the benefits of a high base clock speed without an excessive increase in energy consumption.

L3 Cache: 35.75MB

Faster Data Access

The HPE Xeon Platinum 8170 Processor features an impressive L3 cache size of 35.75MB. The L3 cache acts as a high-speed memory pool that stores frequently accessed data, allowing for faster data retrieval by the processor. With a larger L3 cache, the processor can access data more quickly, resulting in improved overall system performance.

Reduced Memory Latency

Having a larger L3 cache reduces memory latency, which refers to the time it takes for the processor to retrieve data from the main memory. By storing frequently accessed data in the L3 cache, the processor can bypass the slower main memory, resulting in reduced latency and faster data access speeds. This is particularly important for applications that rely heavily on accessing large amounts of data, such as databases or scientific simulations.

Improved Instruction Execution

The larger L3 cache also improves instruction execution by allowing the processor to store more instructions closer to the execution units. This reduces the time required for the processor to fetch instructions, resulting in faster overall execution times. Applications that involve complex calculations or extensive data processing can benefit greatly from the improved instruction execution provided by a larger L3 cache.

Enhanced Gaming Performance

In the gaming world, having a larger L3 cache can lead to improved performance and smoother gameplay. Games often require quick access to various game assets, including textures, models, and sound files. With a larger L3 cache, the HPE Xeon Platinum 8170 Processor can store more of these game assets, ensuring quick retrieval and reduced loading times. Gamers can enjoy enhanced graphics, reduced lag, and an overall improved gaming experience.

Better Virtual Machine Performance

Virtualization technologies rely heavily on memory operations, making the size of the L3 cache crucial for virtual machine performance. With a larger L3 cache, the HPE Xeon Platinum 8170 Processor can store more virtual machine memory pages, reducing the need to access the main memory frequently. This results in improved virtual machine performance, allowing users to run more virtual machines simultaneously without experiencing significant performance degradation.

Optimized Data-Intensive Workloads

Data-intensive workloads such as big data analytics or scientific simulations require frequent access to large datasets. The larger L3 cache of the HPE Xeon Platinum 8170 Processor allows for efficient handling of these workloads by reducing the time required for data retrieval. Users can expect improved performance and faster execution times when dealing with data-intensive tasks.

Upi Speed: 10.4GT/S

High-Speed Interconnectivity

The Upi Speed of the HPE Xeon Platinum 8170 Processor is set at an impressive 10.4GT/s (Giga Transfers per second). Upi stands for "Ultra Path Interconnect" and refers to the high-speed interconnectivity technology used by Intel processors. The high Upi Speed ensures fast communication between multiple processors or other system components, enabling efficient data transfer and synchronization.

Scalability and System Expansion

The high Upi Speed allows for seamless scalability and system expansion. Multiple processors can be interconnected using Upi, creating a cohesive and powerful computing system capable of handling large workloads with ease. Businesses and professionals who require extensive computational power can benefit from the ability to scale their systems by adding additional processors without sacrificing performance.

Improved Performance in Multi-Processor Systems

In multi-processor systems, the Upi Speed plays a crucial role in determining overall performance. The high Upi Speed of the HPE Xeon Platinum 8170 Processor ensures efficient communication between processors, minimizing bottlenecks and reducing latency. This results in improved performance, particularly in scenarios where tasks are distributed across multiple processors or when running parallelized applications.

Enhanced Data Transfer Rates

The high Upi Speed also enhances data transfer rates between the processor and other system components such as memory modules or storage devices. This is especially important for applications that rely on fast data access or require extensive I/O operations. Users can expect improved overall system responsiveness and reduced data transfer times, resulting in a more efficient computing experience.

Support for High-Performance Computing

High-performance computing (HPC) environments require fast and efficient interconnectivity between processors to achieve optimal performance. The high Upi Speed of the HPE Xeon Platinum 8170 Processor makes it an ideal choice for HPC applications, ensuring seamless communication between processors and enabling efficient execution of parallelized tasks. Users can benefit from faster simulations, quicker data analysis, and improved overall productivity.

Optimized System Performance

The high Upi Speed contributes to optimized system performance in various scenarios. Whether you are running resource-intensive applications, managing large datasets, or engaging in complex calculations, the high-speed interconnectivity provided by Upi ensures that data is transferred quickly and efficiently. This results in improved system responsiveness, reduced processing times, and enhanced overall performance.

Socket Type: FCLGA3647

Compatibility and Future-Proofing

The HPE Xeon Platinum 8170 Processor features the FCLGA3647 socket type, which stands for "Flip-Chip Land Grid Array 3647". The socket type determines the physical connection between the processor and the motherboard, ensuring compatibility and future-proofing capabilities.

Wide Compatibility with Motherboards

The FCLGA3647 socket type is designed to be compatible with a wide range of server-class motherboards. This ensures that users have flexibility when choosing a motherboard for their computing system. Whether you are building a new system or upgrading an existing one, the FCLGA3647 socket type provides compatibility options to suit your needs.

Support for Future Upgrades

The FCLGA3647 socket type is future-proofed to support upcoming processor generations. This means that users can easily upgrade their systems by simply replacing the processor while keeping the existing motherboard. This provides a cost-effective and convenient upgrade path, allowing users to take advantage of new technologies and performance improvements without having to replace the entire system.

Reliability and Stability

The FCLGA3647 socket type provides a secure and stable connection between the processor and the motherboard. This ensures reliable operation even in demanding environments or under heavy workloads. The stable connection minimizes the risk of performance issues or system instability, providing users with peace of mind when it comes to the reliability of their computing systems.

Scalability for Growing Needs

The FCLGA3647 socket type offers scalability options for users who anticipate future growth or increased computational requirements. As technologies advance and workloads become more demanding, having a socket type that supports higher-performance processors allows users to scale their systems without the need for a complete overhaul. This scalability is particularly important for businesses and professionals who want to future-proof their computing infrastructure.

Compatibility with Server-Class Features

The FCLGA3647 socket type is primarily designed for server-class processors, which often come with additional features such as support for ECC (Error-Correcting Code) memory, advanced virtualization technologies, or large memory capacities. By using a processor that utilizes the FCLGA3647 socket type, users can take advantage of these server-class features, ensuring optimal performance and compatibility in server environments or workstation setups.

Manufacturing Technology: 14NM

Improved Efficiency and Performance

The HPE Xeon Platinum 8170 Processor is manufactured using a highly advanced 14nm (nanometer) process technology. The manufacturing technology refers to the size of transistors and other components on the processor chip. A smaller manufacturing technology allows for more transistors to be packed into the same chip area, resulting in improved efficiency and performance.

Higher Performance per Watt

The 14nm manufacturing technology used in the HPE Xeon Platinum 8170 Processor enables higher performance per watt. This means that the processor can deliver more computing power while consuming less energy compared to processors manufactured using larger technologies. The improved energy efficiency is particularly important for users who require high-performance computing while keeping power consumption and operational costs in check.

Reduced Heat Generation

The smaller size of transistors in the 14nm manufacturing technology results in reduced heat generation. This is beneficial for users who prioritize system cooling and want to maintain optimal operating temperatures. The HPE Xeon Platinum 8170 Processor's lower heat generation contributes to improved system stability, reduced fan noise, and a longer lifespan for cooling components.

Increased Transistor Density

The 14nm manufacturing technology allows for a higher transistor density on the processor chip. This means that more transistors can be packed into the same chip area, resulting in increased processing power and improved overall performance. Users can expect enhanced computational capabilities, faster execution times, and improved multitasking capabilities thanks to the increased transistor density.

Optimized Power Consumption

The 14nm manufacturing technology also contributes to optimized power consumption. Smaller transistors require less power to switch between states, resulting in reduced energy consumption. This is particularly important for users who prioritize energy efficiency or have strict power consumption requirements. The optimized power consumption ensures that users can enjoy high-performance computing without excessive energy costs.

Compact Form Factor

The smaller size of transistors in the 14nm manufacturing technology allows for a more compact form factor for the HPE Xeon Platinum 8170 Processor. This is particularly important for applications where space is limited or for users who prefer compact computing systems. The compact form factor enables more efficient system designs and opens up possibilities for smaller and more portable computing solutions.

Power Consumption: 165W

Efficient Energy Usage

The HPE Xeon Platinum 8170 Processor has a power consumption rating of 165W, indicating the amount of electrical power it requires to operate under typical conditions. The processor is designed to deliver high-performance computing while maintaining efficient energy usage.

Balanced Performance and Power Efficiency

The power consumption rating of 165W strikes a balance between performance and power efficiency. The processor's architecture and design ensure that the available power is utilized effectively to deliver optimal performance without excessive energy consumption. This is particularly important for users who require powerful computing capabilities while minimizing their environmental footprint or energy costs.

Reduced Operating Costs

The HPE Xeon Platinum 8170 Processor's efficient power consumption can result in reduced operating costs for businesses and professionals. By consuming less energy compared to processors with higher power consumption ratings, users can save on electricity bills in the long run. This is especially significant for environments where multiple processors are used or where computing systems operate continuously.

Environmental Considerations

The efficient power consumption of the HPE Xeon Platinum 8170 Processor contributes to a reduced carbon footprint. By consuming less energy, users can minimize their impact on the environment and contribute to sustainability efforts. This is particularly important for organizations that prioritize environmental responsibility or need to comply with strict environmental regulations.

Enhanced Cooling Efficiency

The 165W power consumption rating ensures that the processor can be effectively cooled without excessive heat generation. Efficient cooling is crucial for maintaining optimal operating temperatures and ensuring system stability. The HPE Xeon Platinum 8170 Processor's balanced power consumption allows for efficient cooling solutions, reducing the risk of overheating and extending the lifespan of cooling components.

Power Limit Configuration

The HPE Xeon Platinum 8170 Processor allows users to configure power limits