HPE 874728-001 Intel Xeon Platinum 8170 26 Core Processor

Core Count: 26

Enhanced Performance and Multitasking

The HPE Xeon Platinum 8170 Processor boasts an impressive core count of 26, making it a powerhouse for enhanced performance and multitasking capabilities. With this many cores, users can experience lightning-fast processing speeds and multitask effortlessly without experiencing any lag or slowdowns. Whether you are running resource-intensive applications or performing complex data analysis, the 26 cores ensure that your tasks are completed efficiently and quickly.

Improved Parallel Processing

Having 26 cores allows for improved parallel processing, which means that multiple tasks can be executed simultaneously. This feature is particularly useful for users who work with applications that require heavy parallel processing, such as scientific simulations or video rendering. By dividing tasks among the numerous cores, the processor can handle a larger workload at once, resulting in faster and more efficient computations.

Optimized Server Performance

In server environments, the core count plays a crucial role in determining the overall performance and efficiency of the system. With 26 cores, the HPE Xeon Platinum 8170 Processor can handle a high volume of requests simultaneously, ensuring smooth and uninterrupted server operations. This is especially beneficial for businesses that rely on their servers to handle heavy workloads or accommodate a large number of users concurrently.

Increased Scalability

Scalability is essential for businesses as they grow and expand. The 26 cores of the HPE Xeon Platinum 8170 Processor provide ample room for scalability, allowing businesses to accommodate increasing workloads without sacrificing performance. As your business grows, you can easily scale up your server infrastructure by adding more processors, leveraging the high core count to maintain optimal performance levels.

Efficient Virtualization

Virtualization has become an integral part of modern computing infrastructure. The 26 cores of the HPE Xeon Platinum 8170 Processor enable efficient virtualization by allowing for the creation and management of multiple virtual machines (VMs) simultaneously. With each core dedicated to a specific VM, users can experience smooth and seamless virtualization performance, minimizing any performance degradation that may occur when running multiple VMs concurrently.

Base Clock Speed: 2.1GHz

Responsive and Quick Computing

The HPE Xeon Platinum 8170 Processor features a base clock speed of 2.1GHz, providing users with a responsive and quick computing experience. The base clock speed determines the frequency at which the processor operates under normal conditions, ensuring that tasks are executed promptly and efficiently. With a high base clock speed of 2.1GHz, users can expect snappy performance, whether they are browsing the web, working on documents, or running demanding applications.

Seamless Multitasking

Multitasking is a common requirement for many users, and a high base clock speed is crucial for ensuring smooth multitasking capabilities. The 2.1GHz base clock speed of the HPE Xeon Platinum 8170 Processor allows users to switch between applications seamlessly without experiencing any noticeable lag or delays. This is particularly advantageous for professionals who need to work with multiple applications simultaneously or for gamers who want to achieve smooth gameplay while running background tasks.

Efficient Single-Threaded Performance

While multi-threaded performance is essential for handling heavy workloads, single-threaded performance is equally important for tasks that rely on a single core. The HPE Xeon Platinum 8170 Processor's high base clock speed of 2.1GHz ensures efficient single-threaded performance, allowing users to complete tasks that cannot be parallelized quickly. This is particularly beneficial for tasks such as video editing or audio processing, where single-threaded performance is crucial for achieving optimal results.

Improved Responsiveness in Real-Time Applications

Real-time applications, such as video conferencing or online gaming, require a processor with high base clock speed to ensure smooth and responsive performance. The 2.1GHz base clock speed of the HPE Xeon Platinum 8170 Processor enables users to participate in real-time applications without experiencing any significant delays or latency issues. This is especially important in scenarios where even the slightest delay can impact the overall user experience.

Efficient Power Management

Power consumption is a critical consideration for both individuals and businesses. The HPE Xeon Platinum 8170 Processor's 2.1GHz base clock speed strikes a balance between performance and power efficiency. By operating at a lower frequency when idle or under light loads, the processor can conserve power, reducing energy consumption and associated costs. This feature is particularly advantageous for organizations that prioritize energy efficiency and sustainability.

L3 Cache: 35.75MB

Improved Data Access and Retrieval

The L3 cache is a vital component of a processor that stores frequently accessed data, providing faster access times compared to system memory. With an impressive L3 cache size of 35.75MB, the HPE Xeon Platinum 8170 Processor offers improved data access and retrieval speeds, resulting in faster overall system performance. The large cache size allows frequently used data to be stored closer to the processor cores, reducing latency and minimizing the time it takes to fetch data from the main memory.

Enhanced Application Performance

Applications that heavily rely on data retrieval and manipulation can benefit greatly from a large L3 cache size. The 35.75MB L3 cache of the HPE Xeon Platinum 8170 Processor ensures that frequently accessed data is readily available, reducing the need to fetch data from system memory. This results in improved application performance, as the processor can quickly access the required data, perform calculations, and deliver results faster.

Efficient Multithreaded Performance

The large L3 cache size of the HPE Xeon Platinum 8170 Processor plays a crucial role in optimizing multithreaded performance. With 35.75MB of cache, each core has ample space to store frequently accessed data, reducing the need for inter-core communication and synchronization. This allows for efficient parallel processing, as cores can access their required data without competing for limited cache resources. As a result, users can experience improved performance when running applications that utilize multiple threads simultaneously.

Reduced Memory Latency

Memory latency refers to the time it takes for the processor to access data from system memory. The larger the L3 cache size, the more data can be stored closer to the processor cores, reducing the need for frequent memory accesses. The 35.75MB L3 cache size of the HPE Xeon Platinum 8170 Processor minimizes memory latency, ensuring that processors can access frequently used data quickly. This results in improved system responsiveness and reduced wait times when accessing memory-intensive applications or large datasets.

Seamless Virtualization Performance

Virtualization environments often involve running multiple virtual machines (VMs) concurrently, each with its own set of applications and data. The large L3 cache size of the HPE Xeon Platinum 8170 Processor enables efficient virtualization performance by providing ample cache space for each VM's frequently accessed data. This allows VMs to operate independently without competing for cache resources, ensuring smooth and responsive virtualization performance.

Upi Speed: 10.4GT/S

High-Speed Interconnectivity

The Upi Speed, or Unified Processor Interconnect Speed, is a critical feature that determines the speed at which processors communicate with each other in multi-processor systems. The HPE Xeon Platinum 8170 Processor boasts an impressive Upi Speed of 10.4GT/s, enabling high-speed interconnectivity between processors. This ensures efficient data transfer and communication, resulting in enhanced system performance and responsiveness.

Scalability and Performance in Multi-Processor Systems

Multi-processor systems are commonly used in server environments that require high scalability and performance. The 10.4GT/s Upi Speed of the HPE Xeon Platinum 8170 Processor allows for seamless integration and communication between multiple processors, ensuring optimal performance in these systems. Whether you are running a large-scale database or managing a virtualization environment, the high Upi Speed facilitates efficient data sharing and synchronization across multiple processors.

Improved Workload Distribution

In multi-processor systems, workload distribution is crucial for maintaining balanced performance across all processors. The high Upi Speed of 10.4GT/s enables rapid data transfer between processors, allowing for efficient workload distribution. This ensures that tasks are evenly distributed among the available processors, preventing any single processor from becoming overloaded. As a result, users can experience consistent and balanced performance across all cores and processors.

Enhanced System Resilience

In mission-critical environments where system resilience is paramount, the high Upi Speed of the HPE Xeon Platinum 8170 Processor plays a crucial role. With rapid interconnectivity between processors, these systems can quickly recover from failures or errors by seamlessly redistributing the workload to functional processors. This enhances system resilience and ensures uninterrupted operation even in the face of hardware failures or errors.

Efficient Data Sharing in Clustered Computing

Clustered computing environments rely on efficient data sharing between multiple nodes to perform complex calculations or simulations. The high Upi Speed of the HPE Xeon Platinum 8170 Processor facilitates rapid data transfer between nodes, enabling efficient collaboration and synchronization in clustered computing environments. This ensures that data-intensive tasks can be completed quickly and accurately, contributing to improved efficiency and reduced processing time.

Socket Type: FCLGA3647

Compatibility and Scalability

The socket type of a processor determines its physical form factor and compatibility with the motherboard. The HPE Xeon Platinum 8170 Processor utilizes the FCLGA3647 socket type, which offers excellent compatibility and scalability for various server and workstation configurations. This socket type is specifically designed for high-performance processors, making it ideal for users who require advanced processing capabilities.

Future-Proofing Your System

Investing in a processor with a widely supported socket type, such as FCLGA3647, ensures future-proofing your system. As technology evolves and newer processors are released, having a compatible socket type allows for easy upgrades without requiring a complete system overhaul. This provides flexibility and longevity to your system, allowing you to stay up-to-date with the latest advancements in processing technology.

Support for Multiple Processors

The FCLGA3647 socket type supports dual-processor configurations, allowing users to harness the power of multiple processors in their systems. This is particularly beneficial for resource-intensive applications that require immense processing power or server environments that need to handle high workloads. By utilizing dual processors with the FCLGA3647 socket type, users can significantly enhance system performance and scalability.

Cost-Effective Scalability

The FCLGA3647 socket type's support for dual-processor configurations offers a cost-effective approach to scalability. Instead of investing in a single high-end processor, users can opt for dual lower-cost processors that still provide exceptional performance. This allows businesses to scale their computing power while keeping costs in check, making it an attractive option for organizations with budget constraints or those looking for a cost-effective upgrade path.

Efficient Workstation Configurations

Workstations used for demanding tasks such as graphic design, video editing, or 3D modeling can greatly benefit from the FCLGA3647 socket type. The support for dual-processor configurations allows workstations to handle high workloads and complex calculations efficiently. Users can experience smooth and responsive performance, even when working with resource-intensive applications, ensuring productivity and minimizing workflow disruptions.

Manufacturing Technology: 14NM

Enhanced Performance and Efficiency

The manufacturing technology of a processor refers to the size of the transistors used in its fabrication. The HPE Xeon Platinum 8170 Processor is built using a 14nm manufacturing technology, which offers a balance between performance and energy efficiency. The smaller transistor size allows for increased transistor density, resulting in improved performance and reduced power consumption.

Optimized Power Efficiency

Power consumption is a significant concern for both individuals and businesses. The 14nm manufacturing technology of the HPE Xeon Platinum 8170 Processor enables efficient power management by reducing leakage currents and minimizing energy wastage. This results in lower power consumption, allowing users to achieve optimal performance while keeping energy costs in check. Additionally, reduced power consumption leads to less heat generation, contributing to better system stability and longevity.

Higher Clock Speeds

The smaller transistor size made possible by the 14nm manufacturing technology allows for higher clock speeds. Clock speed refers to the frequency at which the processor operates, determining how many instructions it can execute per second. With the HPE Xeon Platinum 8170 Processor's 14nm manufacturing technology, users can enjoy higher clock speeds, resulting in faster overall performance and improved responsiveness.

Improved Thermal Management

Heat dissipation is a crucial aspect of maintaining system stability and preventing overheating. The 14nm manufacturing technology of the HPE Xeon Platinum 8170 Processor enables efficient thermal management by reducing heat generation. With smaller transistors, less power is required to operate each transistor, resulting in lower heat output. This allows for better cooling and overall system temperature control, ensuring reliable and stable operation even under heavy workloads.

Future-Proofing Your System

Opting for a processor built with advanced manufacturing technology, such as 14nm, ensures future-proofing your system. As technology continues to evolve, manufacturers are likely to transition to even smaller transistor sizes. By investing in a processor with a smaller manufacturing technology, users can stay ahead of the curve and be prepared for future advancements in processing technology.

Power Consumption: 165W

Efficient Power Utilization

Power consumption is a critical consideration for both individuals and businesses. The HPE Xeon Platinum 8170 Processor consumes 165W of power, striking a balance between performance and energy efficiency. With efficient power utilization, users can achieve optimal performance without incurring excessive energy costs or straining power supplies.

Reduced Energy Costs

By consuming only 165W of power, the HPE Xeon Platinum 8170 Processor helps users reduce their energy costs. Lower power consumption translates to reduced electricity bills, making it an attractive option for businesses looking to optimize their operational expenses. Additionally, the processor's efficient power utilization contributes to environmental sustainability by minimizing the carbon footprint associated with energy consumption.

Enhanced Cooling Efficiency

Power consumption directly impacts heat generation, and efficient power utilization plays a crucial role in maintaining optimal system temperatures. The HPE Xeon Platinum 8170 Processor's 165W power consumption allows for efficient cooling, minimizing the strain on cooling systems. This ensures that the processor operates within safe temperature limits, promoting system stability and longevity.

Reliable Server Operation

In server environments, where continuous operation is vital, power consumption is a critical factor. The HPE Xeon Platinum 8170 Processor's 165W power consumption enables reliable server operation by striking a balance between performance and power efficiency. With efficient power utilization, businesses can ensure uninterrupted service delivery, reducing the risk of downtime and associated losses.

Energy-Efficient Workstation Configurations

Workstations used for resource-intensive tasks can benefit from the HPE Xeon Platinum 8170 Processor's 165W power consumption. By consuming less power, the processor allows for energy-efficient workstation configurations that minimize operational costs and reduce environmental impact. Users can enjoy high-performance computing while keeping their energy footprint in check, making it a suitable choice for environmentally conscious users or organizations focused on sustainability.

Part Number: 874728-001

Easy Identification and Compatibility

The part number serves as a unique identifier for the HPE Xeon Platinum 8170 Processor, ensuring easy identification and compatibility verification. The part number 874728-001 specifies the exact model and version of the processor, allowing users to ensure compatibility with their existing systems or components. By referencing the part number, users can confidently select the correct processor for their specific requirements.

Seamless Replacement and Upgrades

The part number also plays a crucial role when replacing or upgrading processors in existing systems. By matching the part number of the HPE Xeon Platinum 8170 Processor with the existing processor, users can seamlessly replace or upgrade their processors without compatibility issues. This simplifies the procurement process and minimizes the risk of acquiring incompatible components, ensuring a