Processor HPE Xeon 6258r 28 Core Gold 2.70GHZ 38.5MB L3 14NM 205W P25101-001

Product Overview of HPE Xeon 28 Core Gold 2.70GHz

Key Details

• Processor Type: Server Processor
• Manufacturer: HPE
• Part Number: P25101-001
• Model: Gold 6258r

Technical Specifications

Processing Power

• Number of Cores: 28-core architecture
• Base Clock Speed: 2.70 GHz
• Turbo Boost Frequency: Up to 4.0 GHz
• UPI Links: 2 high-speed links
• Instruction Set: 64-bit, supporting Intel® SSE4.2, AVX, AVX2, AVX-512

Cache Details

• L3 Cache Size: 38.5 MB

Fabrication Technology

• Fabrication Process: 14nm lithography
• Thermal Design Power (TDP): 205W maximum
• Socket Compatibility: FCLGA3647

Memory Compatibility

Memory Specifications

• Maximum Memory Capacity: Supports up to 1 TB (dependent on memory type)
• Memory Type: DDR4-2933
• Maximum Memory Speed: 2.9 GHz
• Memory Channels: 6 channels for maximum bandwidth
• ECC Support: Error-Correcting Code (ECC) memory supported

Advanced Performance Features

• Optimized for multitasking and high-demand server applications
• Enhanced reliability with support for error-correcting memory

Part Number: P25101-001

The HPE Xeon 28 Core Gold 2.70GHZ 38.5MB L3 14NM 205W 6258r Processor is a powerful and efficient processor designed for high-performance computing tasks. One of its key features is its part number, P25101-001.

Identification

The part number serves as a unique identifier for this specific processor model. It allows users and retailers to easily differentiate it from other processors in the market. This is particularly important when purchasing or replacing processors, as it ensures that the correct model is selected.

Compatibility

The part number also plays a crucial role in determining compatibility with other hardware components. By referencing the part number, users can verify if the processor is compatible with their existing system or if any additional components are required for proper installation. This helps to avoid compatibility issues and ensures smooth integration into the overall computing infrastructure.

Warranty and Support

Another benefit of the part number is its role in warranty and support services. Manufacturers often use part numbers to track specific models and their associated warranties. By providing the part number during warranty claims or technical support inquiries, users can quickly and accurately receive assistance for any issues they may encounter with their processor.

Efficiency and Convenience

The part number, P25101-001, offers users an efficient and convenient way to identify, compare, and purchase the HPE Xeon 28 Core Gold 2.70GHZ 38.5MB L3 14NM 205W 6258r Processor. It simplifies the process of finding the exact model they need, ensuring compatibility, and accessing appropriate support services.

Easy Upgrades

For users looking to upgrade their existing processors, the part number is invaluable. It allows them to easily identify the compatible model, ensuring a seamless transition and maximizing the performance of their system. This eliminates the need for extensive research or guesswork when selecting a new processor, saving time and effort.

Conclusion

In summary, the part number P25101-001 is an essential feature of the HPE Xeon 28 Core Gold 2.70GHZ 38.5MB L3 14NM 205W 6258r Processor. It provides users with a unique identifier, ensuring compatibility, facilitating warranty and support services, and simplifying the upgrade process. By leveraging this part number, users can confidently integrate this powerful processor into their computing systems.

Core Count: 28

The core count is a crucial specification to consider when evaluating the performance and capabilities of a processor. The HPE Xeon 28 Core Gold 2.70GHZ 38.5MB L3 14NM 205W 6258r Processor stands out with its impressive core count of 28.

Processing Power

The core count directly affects the processing power of a processor. More cores allow for parallel execution of tasks, enabling faster and more efficient processing. With 28 cores, this processor has a significant advantage in handling complex and demanding workloads. It excels in tasks that require multitasking, such as data analysis, virtualization, and content creation.

Improved Multithreading

Each core in a processor can handle multiple threads simultaneously. A higher core count translates to a greater number of threads that can be executed simultaneously. This improves overall system responsiveness and enables smoother multitasking experiences for users. With 28 cores, this processor can handle an extensive number of threads simultaneously, resulting in faster and more efficient multitasking capabilities.

Scalability

The 28-core count provides scalability for users who anticipate future growth or increased workload demands. As software and applications become more demanding, having additional cores ensures that the processor can handle increased computational requirements. This scalability future-proofs the system, reducing the need for frequent hardware upgrades and optimizing long-term investment.

Optimized Performance

The 28-core count of the HPE Xeon 28 Core Gold 2.70GHZ 38.5MB L3 14NM 205W 6258r Processor delivers optimized performance for both single-threaded and multithreaded tasks. It offers a balance between high clock speeds and a sufficient number of cores, resulting in exceptional performance across a variety of workloads.

Efficient Resource Allocation

Having a higher core count allows for efficient resource allocation within the processor. It enables workload distribution across multiple cores, preventing bottlenecks and ensuring that each core operates at an optimal level. This efficient resource allocation leads to improved overall system performance and responsiveness.

Conclusion

In conclusion, the HPE Xeon 28 Core Gold 2.70GHZ 38.5MB L3 14NM 205W 6258r Processor's 28-core count is a significant advantage for users seeking high-performance computing. It offers enhanced processing power, improved multitasking capabilities, scalability for future growth, optimized performance, and efficient resource allocation. With its impressive core count, this processor is well-suited for demanding workloads and resource-intensive applications.

Base Clock Speed: 2.70GHZ

The base clock speed is a critical specification that determines the fundamental processing capability of a CPU. The HPE Xeon 28 Core Gold 2.70GHZ 38.5MB L3 14NM 205W 6258r Processor features a base clock speed of 2.70GHZ, which plays a crucial role in its performance and responsiveness.

Core Functionality

The base clock speed represents the frequency at which the processor's cores operate without any additional boost or overclocking. It serves as a baseline for the CPU's performance, ensuring stable and reliable operation across various tasks and workloads. The higher the base clock speed, the faster the processor can execute instructions and process data.

Single-Threaded Performance

For applications that primarily rely on single-threaded performance, such as gaming or certain productivity software, the base clock speed is of utmost importance. A higher base clock speed directly translates to faster execution times for single-threaded tasks, resulting in improved overall system responsiveness and smoother user experiences.

Power Consumption

The base clock speed also affects power consumption. Processors with higher base clock speeds generally require more power to operate efficiently. However, the HPE Xeon 28 Core Gold 2.70GHZ 38.5MB L3 14NM 205W 6258r Processor strikes a balance between performance and power efficiency, ensuring optimal performance while minimizing energy consumption.

Stability and Reliability

The 2.70GHZ base clock speed of this processor ensures stable and reliable operation across various workloads. By maintaining a consistent clock speed, it minimizes the risk of errors or system instability that can occur with overclocking or variable clock speeds. This stability is particularly important for critical applications that require continuous operation without disruptions.

Compatibility

The base clock speed also plays a role in compatibility with software applications. Some applications are optimized or designed to perform best within a certain range of clock speeds. With a base clock speed of 2.70GHZ, this processor ensures compatibility with a wide range of software, allowing users to leverage its performance without concerns about compatibility issues.

Conclusion

In summary, the base clock speed of 2.70GHZ in the HPE Xeon 28 Core Gold 2.70GHZ 38.5MB L3 14NM 205W 6258r Processor is a vital specification that influences its performance, power consumption, stability, reliability, and compatibility. With its optimized base clock speed, this processor delivers fast and responsive performance for both single-threaded and multithreaded tasks while maintaining efficient power consumption and ensuring stability and compatibility with various software applications.

L3 Cache: 38.5MB

The L3 cache is an important feature of modern processors that significantly impacts their performance and efficiency. The HPE Xeon 28 Core Gold 2.70GHZ 38.5MB L3 14NM 205W 6258r Processor stands out with its generous L3 cache size of 38.5MB.

Caching Hierarchy

The L3 cache serves as the last level of cache in the processor's caching hierarchy. It acts as a high-speed memory storage that stores frequently accessed data and instructions, reducing the need to fetch them from slower main memory or storage devices. With a larger L3 cache size of 38.5MB, this processor can store more data and instructions closer to the cores, resulting in faster access times and improved overall system performance.

Data Access Speed

The L3 cache plays a crucial role in minimizing data access latency. By storing frequently accessed data closer to the cores, the processor can retrieve it more quickly. This reduces the time spent waiting for data to be fetched from main memory or storage devices, resulting in faster execution times and improved responsiveness for both single-threaded and multithreaded tasks.

Improved Multitasking

The generous L3 cache size of 38.5MB enhances multitasking capabilities. With more cache available, the processor can store a larger amount of data and instructions from multiple threads simultaneously. This reduces cache thrashing and contention, allowing the system to efficiently execute multiple tasks in parallel without significant performance degradation.

Accelerated Workloads

The 38.5MB L3 cache size provides ample space for storing data and instructions, particularly in memory-intensive workloads. Applications that frequently access large datasets or work with complex calculations can benefit greatly from the increased cache size. It accelerates data retrieval and processing, resulting in improved performance and reduced execution times for such workloads.

Enhanced Gaming Performance

Gaming enthusiasts can also benefit from a larger L3 cache size. Many modern games rely on fast data access to provide smooth gameplay experiences. With a generous 38.5MB L3 cache, this processor can store critical game assets, reducing load times and improving in-game performance. Gamers can enjoy more immersive experiences with reduced stutters and lag.

Conclusion

In conclusion, the HPE Xeon 28 Core Gold 2.70GHZ 38.5MB L3 14NM 205W 6258r Processor's 38.5MB L3 cache size significantly enhances its performance, particularly in terms of data access speed, multitasking capabilities, accelerated workloads, and gaming performance. With a larger L3 cache, this processor can store more frequently accessed data closer to the cores, resulting in faster execution times, improved responsiveness, and enhanced overall system performance.

Manufacturing Technology: 14NM

The manufacturing technology of a processor is a crucial specification that impacts its performance, power efficiency, and overall capabilities. The HPE Xeon 28 Core Gold 2.70GHZ 38.5MB L3 14NM 205W 6258r Processor is manufactured using a state-of-the-art 14nm process.

Miniaturization

Manufacturing technology refers to the process of creating microscopic transistors and other components on a processor's silicon wafer. A smaller manufacturing technology, such as 14nm, allows for the creation of smaller transistors and more densely packed components. This miniaturization enables higher transistor counts and increased performance within a given chip size.

Improved Performance

The 14nm manufacturing process delivers improved performance compared to larger process nodes. Smaller transistors allow for faster switching speeds, reducing the time required to execute instructions. This results in improved overall system performance and responsiveness, particularly in tasks that require high-speed computation or data processing.

Power Efficiency

The 14nm manufacturing technology also contributes to improved power efficiency. Smaller transistors require less power to switch states, reducing energy consumption and heat generation. This leads to lower power requirements for the processor, resulting in reduced energy costs and improved thermal management within the system.

Thermal Performance

The use of a 14nm manufacturing process enhances thermal performance by generating less heat during operation. With reduced heat generation, the processor can operate at lower temperatures, minimizing the risk of overheating and ensuring stable and reliable operation even under heavy workloads. This is particularly important for systems that require continuous operation or are deployed in environments with limited cooling capabilities.

Future-Proofing

Choosing a processor manufactured using advanced technology like the 14nm process ensures future-proofing to some extent. As technology progresses, manufacturers tend to introduce newer processors using smaller and more efficient manufacturing technologies. By selecting a processor with a smaller process node, users can ensure that their system remains competitive and capable of handling future software advancements and demands.

Conclusion

In summary, the HPE Xeon 28 Core Gold 2.70GHZ 38.5MB L3 14NM 205W 6258r Processor's 14nm manufacturing technology provides significant benefits in terms of improved performance, power efficiency, thermal performance, and future-proofing. The smaller transistors and increased component density enable higher performance within a given chip size, reduced power consumption, enhanced thermal management, and readiness for future software advancements. Users can confidently rely on this processor for high-performance computing while enjoying energy-efficient operation.

Power Consumption: 205W

Power consumption is an important consideration when choosing a processor for a system. The HPE Xeon 28 Core Gold 2.70GHZ 38.5MB L3 14NM 205W 6258r Processor is designed with a power consumption rating of 205W, striking a balance between performance and energy efficiency.

Performance-Per-Watt

Power consumption plays a crucial role in determining the performance-per-watt ratio of a processor. This ratio measures the amount of computing performance achieved per unit of power consumed. A lower power consumption rating often indicates higher energy efficiency and better performance-per-watt ratio. With a power consumption of 205W, this processor offers an optimal balance between performance and energy efficiency.

Reduced Energy Costs

Efficient power consumption directly translates to reduced energy costs for users. Processors with lower power requirements consume less electricity during operation, resulting in lower energy bills over time. By choosing a processor like the HPE Xeon 28 Core Gold 2.70GHZ 38.5MB L3 14NM 205W 6258r Processor, users can enjoy high-performance computing without incurring excessive energy expenses.

Thermal Management

Power consumption is closely related to heat generation within the system. Processors with higher power requirements tend to generate more heat, which can pose challenges for thermal management. The 205W power consumption of this processor strikes a balance between performance and thermal considerations, allowing for efficient cooling solutions and ensuring stable and reliable operation even under heavy workloads.

Sustainability

Opting for a processor with lower power consumption contributes to sustainability efforts. By reducing energy consumption, users can minimize their carbon footprint and environmental impact. This is particularly important in large-scale computing environments, data centers, or organizations aiming to achieve energy-efficient operations and meet sustainability goals.

Noise Reduction

Lower power consumption also results in reduced heat dissipation and fan noise. Processors with higher power requirements often require more robust cooling solutions, which can generate increased fan noise. By choosing a processor with a power consumption of 205W, users can enjoy a quieter computing environment without compromising performance.

Conclusion

In conclusion, the HPE Xeon 28 Core Gold 2.70GHZ 38.5MB L3 14NM 205W 6258r Processor's power consumption rating of 205W offers users an optimal balance between performance, energy efficiency, reduced energy costs, efficient thermal management, sustainability, and noise reduction. By selecting this processor, users can achieve high-performance computing while minimizing their environmental impact, reducing energy expenses, and ensuring stable and reliable operation within their systems.