HPE P12028-B21 Xeon Platinum 8253 16-Core 2.2GHz 22MB L3 Cache 10.4GT/S UPI Speed Socket FCLGA3647 14NM 125W Processor
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Product Overview of HPE Xeon Platinum 8253 Processor
General Product Details
- Manufacturer: HPE
- Part Number: P12028-B21
- Model: Platinum 8253
- Type: Server Processor
Technical Specifications
Processor Features
- Core Count: 16 cores
- Base Clock Speed: 2.2 GHz
- Max Turbo Frequency: 3.0 GHz
- Ultra Path Interconnect (UPI) Speed: 10.4 GT/s
- UPI Links: 3
- Architecture: 64-bit
- Instruction Set Extensions: Intel® AVX-512
Cache Memory Information
- L3 Cache Size: 22 MB
Manufacturing Details
- Process Technology: 14 nm
- Max Thermal Design Power (TDP): 125 W
- Socket Compatibility: FCLGA3647
Memory Specifications
Memory Capabilities
- Maximum Memory Size: 1 TB (dependent on memory type)
- Supported Memory Types: DDR4-2933
- Highest Memory Speed: 2.9 GHz
- Maximum Memory Channels: 6
- ECC Memory Support: Yes
Cores: 16
The HPE Xeon Platinum 8253 Processor is equipped with 16 cores, making it a powerful choice for users who require high-performance computing capabilities. The number of cores in a processor determines its ability to handle multiple tasks simultaneously, improving overall system performance and responsiveness. With 16 cores, this processor can efficiently handle demanding workloads, such as data analysis, virtualization, and content creation.
Improved Multitasking
Having 16 cores allows users to run multiple applications and processes concurrently without experiencing significant performance degradation. This feature is particularly beneficial for professionals who rely on multitasking to streamline their work or for individuals who frequently use resource-intensive applications.
Enhanced Parallel Processing
The 16 cores enable the HPE Xeon Platinum 8253 Processor to effectively execute parallel tasks. Parallel processing refers to the ability to divide a complex task into smaller sub-tasks that can be processed simultaneously. This feature is crucial for applications that can take advantage of parallelism, such as scientific simulations, rendering, and data-intensive computations.
Optimized Virtualization Performance
Virtualization technology allows users to create multiple virtual machines on a single physical server, maximizing hardware utilization and reducing costs. The 16 cores in this processor ensure that each virtual machine receives an adequate share of processing power. This capability is essential for businesses that heavily rely on virtualization for their IT infrastructure.
Increased Efficiency
The presence of 16 cores helps improve overall system efficiency by reducing the time it takes to complete complex tasks. Users can experience faster data processing, shorter render times, and quicker application response, leading to enhanced productivity and a more efficient workflow.
Better Gaming Performance
For gamers, the 16 cores in the HPE Xeon Platinum 8253 Processor can significantly enhance gaming performance. Many modern games are optimized to take advantage of multiple cores, allowing for smoother gameplay, faster loading times, and improved graphics rendering.
Future-Proofing
Investing in a processor with 16 cores ensures that your system is prepared for future advancements in software and technology. As applications continue to evolve and become more resource-intensive, having a higher core count will enable your system to handle these demands without the need for a processor upgrade.
Base Clock Speed: 2.2GHz
The HPE Xeon Platinum 8253 Processor features a base clock speed of 2.2GHz. The base clock speed refers to the frequency at which the processor operates under normal conditions without any overclocking or turbo boost.
Reliable Performance
A higher base clock speed provides a solid foundation for consistent performance. The 2.2GHz base clock speed ensures that the processor can handle everyday computing tasks efficiently, such as web browsing, office productivity, and media playback.
Smooth Multitasking
The 2.2GHz base clock speed allows the processor to handle multiple concurrent tasks smoothly. Whether you're working on complex spreadsheets, editing multimedia content, or running multiple applications simultaneously, this processor can deliver responsive performance without noticeable slowdowns.
Quick Application Launches
A higher base clock speed helps reduce application launch times, allowing users to start their favorite programs quickly. Whether you're opening resource-intensive applications like video editing software or simply launching web browsers and productivity tools, the 2.2GHz base clock speed ensures minimal waiting time.
Seamless Content Creation
Content creators, such as video editors and graphic designers, can benefit from the 2.2GHz base clock speed. This processor enables them to work with large media files, perform real-time video editing, and render high-resolution graphics efficiently, resulting in a smoother creative workflow.
Efficient Gaming Performance
The 2.2GHz base clock speed provides a solid foundation for gaming performance. While gaming heavily relies on the graphics card, a higher base clock speed ensures that the processor can handle background tasks and game-related processes effectively, contributing to a smoother gaming experience.
Better Responsiveness
A higher base clock speed contributes to improved system responsiveness. Whether you're navigating through your operating system, switching between applications, or interacting with various software interfaces, the 2.2GHz base clock speed ensures a snappy and fluid user experience.
L3 Cache: 22MB
The HPE Xeon Platinum 8253 Processor boasts a generous L3 cache size of 22MB. The L3 cache is a dedicated memory space located on the processor chip that stores frequently accessed data for faster retrieval.
Enhanced Data Access
The large 22MB L3 cache allows the processor to store more data closer to the cores, reducing the time it takes to access frequently used information. This results in faster data retrieval and improved overall system responsiveness.
Smarter Task Execution
With a larger L3 cache, the processor can intelligently prioritize data that is most likely to be accessed in the near future. This smart caching mechanism enhances task execution by minimizing delays caused by waiting for data to be fetched from slower system memory or storage devices.
Improved Application Performance
The 22MB L3 cache size is particularly beneficial for applications that rely heavily on data access, such as databases, content management systems, and scientific simulations. By reducing data latency, these applications can perform better, resulting in faster query responses, shorter processing times, and improved overall efficiency.
Seamless Multitasking
The large L3 cache enables smoother multitasking by reducing the impact of data swapping between different applications. With more data readily available in the cache, the processor can quickly switch between tasks, resulting in a more seamless and responsive multitasking experience.
Efficient Virtualization
In virtualized environments, the 22MB L3 cache helps improve performance by reducing the latency associated with accessing shared resources. Each virtual machine can benefit from faster data access, leading to improved responsiveness and better overall virtualization performance.
Optimized Gaming Experience
Gamers can also benefit from the 22MB L3 cache size. The cache helps reduce loading times and improves game performance by storing frequently accessed game assets and reducing the need for accessing system memory or storage devices. This results in smoother gameplay and reduced stuttering or lag.
Upi Speed: 10.4GT/S
The HPE Xeon Platinum 8253 Processor features an impressive Upi Speed of 10.4GT/s. Upi stands for "Ultra Path Interconnect," which is a high-speed interconnect technology used in multi-socket server configurations to enable efficient communication between processors.
Faster Data Transfer
The 10.4GT/s Upi Speed ensures fast and efficient communication between multiple processors in a server configuration. This allows for rapid exchange of data and instructions, improving overall system performance and reducing latency.
Scalability and Expandability
The high Upi Speed enables seamless scalability and expandability in multi-socket server setups. With fast interconnectivity, additional processors can be added to the system without compromising performance, allowing businesses to easily scale their computing resources as their needs grow.
Improved Workload Distribution
The 10.4GT/s Upi Speed facilitates efficient workload distribution across multiple processors. In multi-threaded applications or complex computing tasks, the Upi Speed ensures that the workload is evenly distributed among the processors, maximizing system throughput and minimizing bottlenecks.
Enhanced Server Performance
For businesses that rely on servers for critical operations, the high Upi Speed of 10.4GT/s ensures optimal server performance. With faster interconnectivity, servers can handle heavy workloads, such as database management, web hosting, and virtualization, more effectively, resulting in improved responsiveness and reduced downtime.
Reliable Data Processing
The high Upi Speed enhances the reliability of data processing in multi-processor configurations. With fast interconnectivity, data integrity is maintained during inter-processor communication, reducing the risk of data corruption or errors.
Efficient Data Analysis
Data analysis tasks that require significant computational power can benefit from the 10.4GT/s Upi Speed. With faster communication between processors, data-intensive computations, such as statistical analysis or machine learning algorithms, can be completed more efficiently, reducing processing time and improving productivity.
Socket Type: FCLGA3647
The HPE Xeon Platinum 8253 Processor utilizes the FCLGA3647 socket type. FCLGA stands for "Flip-Chip Land Grid Array," which is a type of socket design that allows the processor to be securely mounted onto the motherboard.
Compatibility and Versatility
The FCLGA3647 socket type ensures compatibility with motherboards specifically designed to support this socket. This compatibility allows users to easily upgrade or replace their processors without the need for changing the entire motherboard, providing cost savings and flexibility.
Secure and Robust Connection
The FCLGA3647 socket design provides a secure and robust connection between the processor and the motherboard. This ensures reliable data transfer, stable power delivery, and efficient heat dissipation, essential for maintaining system stability and longevity.
Support for Multiple Processors
FCLGA3647 is a socket type commonly used in multi-processor server configurations. It enables multiple processors to be installed on a single motherboard, allowing for increased processing power and enhanced system scalability.
Enterprise-Grade Performance
The FCLGA3647 socket type is often associated with high-performance computing solutions utilized by enterprises. It ensures that servers equipped with the HPE Xeon Platinum 8253 Processor can handle demanding workloads and provide reliable performance in mission-critical environments.
Server Flexibility
The FCLGA3647 socket type offers server administrators the flexibility to choose from a wide range of compatible processors. This allows them to select the most suitable processor based on their specific requirements, such as performance, power consumption, and budget.
Scalable Computing Power
Motherboards supporting the FCLGA3647 socket type can accommodate multiple processors, enabling businesses to scale their computing power as needed. This scalability is crucial for industries with rapidly growing computational demands, such as data centers, scientific research facilities, and financial institutions.
Manufacturing Technology: 14nm
The HPE Xeon Platinum 8253 Processor is built using the 14nm manufacturing technology. The manufacturing technology refers to the size of the transistors and other components on the processor chip.
Improved Power Efficiency
The 14nm manufacturing technology allows for the creation of smaller and more power-efficient transistors. This results in reduced power consumption and heat generation, leading to lower energy costs and improved overall system efficiency.
Higher Performance
The smaller transistors enabled by the 14nm manufacturing technology allow for more transistors to be packed onto the processor chip. This increased transistor density translates to higher computational capabilities and improved overall performance.
Enhanced Thermal Management
The 14nm manufacturing technology enables better thermal management due to the reduced heat generation. Processors built using this technology tend to run cooler, allowing for quieter operation and reducing the need for extensive cooling solutions.
Optimized Data Center Efficiency
In data center environments, the 14nm manufacturing technology plays a significant role in improving overall efficiency. Servers equipped with processors built using this technology can deliver high-performance computing while minimizing power consumption, resulting in cost savings and reduced environmental impact.
Extended Battery Life
Laptops and mobile devices utilizing processors built with the 14nm manufacturing technology can benefit from extended battery life. The reduced power consumption allows for longer usage without requiring frequent recharging, enhancing productivity and user satisfaction.
Future-Proofing
Investing in a processor built with the 14nm manufacturing technology ensures that your system is prepared for future software and technology advancements. As applications continue to evolve, processors with smaller transistor sizes will be better suited to handle the increased computational demands.
Power Consumption: 125W
The HPE Xeon Platinum 8253 Processor has a power consumption of 125W. Power consumption refers to the amount of electrical power a processor requires to operate under typical conditions.
Efficient Performance
With a power consumption of 125W, this processor strikes a balance between performance and energy efficiency. It provides ample processing power for demanding tasks while minimizing unnecessary power usage.
Reduced Energy Costs
A lower power consumption translates to reduced energy costs, making the HPE Xeon Platinum 8253 Processor an economical choice for businesses and individuals concerned with energy efficiency. Lowering energy consumption not only saves money but also contributes to a greener environment.
Cooler Operation
The 125W power consumption ensures that the processor operates within a manageable thermal envelope. This results in cooler operation, reducing the need for extensive cooling solutions and contributing to a quieter and more comfortable computing environment.
Optimized Server Power Usage
In server environments, where multiple processors are deployed, the 125W power consumption helps optimize power usage. Servers equipped with processors consuming less power can operate more efficiently, reducing electricity bills and minimizing the environmental impact of data centers.
Extended Laptop Battery Life
Laptops utilizing processors with lower power consumption benefit from extended battery life. The 125W power consumption allows for longer usage on a single charge, making it ideal for users who require mobile computing capabilities without frequent access to charging outlets.
Sustainable Computing
By opting for a processor with lower power consumption, users contribute to a more sustainable computing ecosystem. Reducing power consumption helps conserve natural resources and reduces carbon emissions associated with energy production.
Part Number: P12028-B21
The part number for the HPE Xeon Platinum 8253 Processor is P12028-B21. A part number is a unique identifier assigned to a specific product variant, allowing for easy identification and ordering.
Product Identification
The part number, P12028-B21, provides a clear identification of the HPE Xeon Platinum 8253 Processor variant. This ensures that users can easily specify the exact processor model they require when purchasing or seeking technical support.
Compatibility Assurance
The part number helps ensure compatibility with other components or systems. Users can cross-reference the part number with system requirements or compatibility lists to verify that the processor is compatible with their existing infrastructure.
Ordering Simplification
By using the part number, users can streamline the ordering process. When purchasing the HPE Xeon Platinum 8253 Processor, simply referencing the part number ensures that the correct variant is obtained, minimizing the chance of errors or confusion.
Efficient Technical Support
When seeking technical support or warranty assistance, providing the part number allows support personnel to quickly identify and address any issues related to the HPE Xeon Platinum 8253 Processor. This expedites troubleshooting and ensures a more efficient resolution.
Spare Part Management
The part number is essential for managing spare parts inventory. IT departments or service providers can use part numbers to track and manage stock levels, ensuring that they have the necessary components readily available for maintenance or replacement tasks.
Firmware and Software Updates
Part numbers are often used to identify specific firmware or software updates applicable to a particular product variant. By referencing the part number, users can ensure that they download and install the correct updates, enhancing system performance, security