HPE 873389-B21 Xeon Platinum 8153 16-Core Processor
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Product Details
Manufacturer Information
- Manufacturer: HPE
- Part Number: 873389-B21
- Model: Platinum 8153
- Type: Server Processor
Technical Specifications
Processor Architecture
- Core Count: 16 cores
- Base Clock Speed: 2.00 GHz
- Max Turbo Speed: 2.80 GHz
- UltraPath Interconnect (UPI) Bandwidth: 10.4 GT/s
- Number of UPI Links: 3
- Instruction Set Architecture: 64-bit
- Instruction Set Extensions: Intel® SSE4.2, Intel® AVX, Intel® AVX2, Intel® AVX-512
Cache Memory
- L3 Cache Size: 22 MB
Process Technology
- Fabrication Process: 14nm
- Maximum Thermal Design Power (TDP): 125W
- Socket Compatibility: FCLGA3647
Memory Specifications
Memory Capacity and Speed
- Maximum Memory Size: 768 GB (varies by memory type)
- Supported Memory Types: DDR4-2666
- Highest Memory Speed: 2.67 GHz
- Maximum Memory Channels: 6
- ECC Memory Support: Yes
Core Count: 16
The HPE Xeon Platinum 8153 Processor is equipped with an impressive core count of 16, making it a powerhouse when it comes to performance and multitasking capabilities. With this many cores, users can expect the processor to handle demanding tasks with ease and efficiency.
Increased Processing Power
Having 16 cores means that the HPE Xeon Platinum 8153 Processor can handle a higher workload compared to processors with fewer cores. Each core can process instructions independently, allowing for parallel execution of tasks. This results in improved processing power, enabling users to run resource-intensive applications and perform complex calculations without experiencing a slowdown.
Enhanced Multitasking
Multitasking becomes seamless with the HPE Xeon Platinum 8153 Processor's 16 cores. Users can easily switch between multiple applications and tasks without any noticeable lag or performance degradation. Whether it's running virtual machines, rendering videos, or analyzing large datasets, this processor ensures smooth multitasking without compromising on speed or responsiveness.
Optimized Performance for Highly Parallel Workloads
Certain workloads, such as scientific simulations, data analytics, and content creation, heavily rely on parallel processing. The 16 cores of the HPE Xeon Platinum 8153 Processor are specifically designed to excel in these scenarios. By dividing the workload across multiple cores, the processor can significantly reduce processing time and deliver faster results. This is particularly beneficial for professionals in fields that require high-performance computing capabilities.
Efficient Resource Allocation
The HPE Xeon Platinum 8153 Processor's 16 cores allow for efficient resource allocation. The operating system can distribute tasks across the available cores, ensuring that each core is utilized optimally. This not only improves performance but also helps in preventing bottlenecks and maximizing the overall efficiency of the system.
Improved Responsiveness
With 16 cores, the HPE Xeon Platinum 8153 Processor can handle background processes and system maintenance tasks without affecting the responsiveness of the system. Users can continue to work on their primary tasks without experiencing any significant slowdown, ensuring a smooth and uninterrupted workflow.
Future-Proofing
Investing in a processor with a high core count like the HPE Xeon Platinum 8153 Processor ensures that your system is future-proofed. As software and applications become more advanced and demanding, having a higher number of cores will allow your system to handle future upgrades and requirements without the need for immediate hardware replacements.
Base Clock Speed: 2.0GHz
The base clock speed of the HPE Xeon Platinum 8153 Processor is set at an impressive 2.0GHz. This feature plays a crucial role in determining the overall performance and speed of the processor.
Optimal Balance of Power and Speed
The base clock speed sets the foundation for the processor's performance. With a base clock speed of 2.0GHz, the HPE Xeon Platinum 8153 Processor strikes a balance between power consumption and processing speed. It ensures that the processor operates efficiently while delivering sufficient processing power for day-to-day tasks.
Boosting Performance with Turbo Boost Technology
While the base clock speed provides a solid foundation, the HPE Xeon Platinum 8153 Processor also utilizes Intel's Turbo Boost Technology. This technology allows the processor to dynamically increase its clock speed when additional processing power is required. With Turbo Boost, the HPE Xeon Platinum 8153 Processor can reach speeds beyond its base clock, enhancing performance during demanding workloads.
Smooth Execution of Single-Threaded Applications
Not all software and applications are designed to take advantage of multiple cores. Some tasks, such as gaming or running single-threaded applications, rely heavily on the clock speed of a single core. The 2.0GHz base clock speed of the HPE Xeon Platinum 8153 Processor ensures that these tasks are executed smoothly, providing a seamless user experience.
Responsive System Performance
The base clock speed plays a significant role in determining the overall responsiveness of the system. With a higher base clock speed, the HPE Xeon Platinum 8153 Processor can quickly respond to user inputs and deliver real-time results. Whether it's launching applications, browsing the web, or performing everyday tasks, users can expect a snappy and responsive system.
Efficient Power Management
The 2.0GHz base clock speed also contributes to efficient power management. By operating at an optimal speed, the processor can minimize power consumption while still delivering adequate performance. This is especially important in environments where energy efficiency is a priority, such as data centers or organizations aiming to reduce their carbon footprint.
Compatibility with Existing Software
The 2.0GHz base clock speed ensures compatibility with a wide range of software and applications. As most software is optimized for processors within a certain clock speed range, having a base clock speed of 2.0GHz ensures that users can seamlessly run their favorite applications without any compatibility issues.
L3 Cache: 22MB
The HPE Xeon Platinum 8153 Processor features an L3 cache size of 22MB. The L3 cache plays a crucial role in improving overall system performance by reducing memory access latency and improving data retrieval capabilities.
Reduced Memory Latency
The L3 cache acts as a buffer between the processor cores and the main memory. With a larger cache size of 22MB, the HPE Xeon Platinum 8153 Processor can store a significant amount of frequently accessed data closer to the cores. This reduces the need to fetch data from the main memory, resulting in reduced memory latency and improved overall system performance.
Improved Data Retrieval
The larger L3 cache size of 22MB allows the processor to store more data that is likely to be accessed in the near future. This improves data retrieval capabilities, as the processor can quickly access the required data without having to wait for it to be fetched from the main memory. This results in faster execution of instructions and improved performance for a wide range of applications and workloads.
Efficient Resource Sharing
The L3 cache also enables efficient resource sharing among the processor cores. As each core has access to the shared cache, they can quickly exchange data without having to rely on slower methods such as accessing data from the main memory or other cores' private caches. This improves overall system efficiency and ensures smooth communication between cores, especially in multi-threaded applications.
Better Gaming Performance
Gaming enthusiasts can benefit greatly from the HPE Xeon Platinum 8153 Processor's 22MB L3 cache. Games often require quick access to large amounts of data, such as textures, models, and audio files. With a larger cache size, the processor can store more game-related data, resulting in faster loading times, smoother gameplay, and reduced stuttering or lag.
Improved Virtualization Performance
Virtualization environments heavily rely on efficient resource allocation and fast data retrieval. The 22MB L3 cache of the HPE Xeon Platinum 8153 Processor enhances virtualization performance by ensuring that virtual machines can quickly access commonly used data without introducing significant latency. This leads to improved responsiveness and better overall performance in virtualized environments.
Enhanced Database Performance
Databases often involve frequent read and write operations, requiring fast access to data. The larger L3 cache size of 22MB in the HPE Xeon Platinum 8153 Processor improves database performance by reducing the time it takes to retrieve frequently accessed data. This results in faster query execution, improved transaction processing, and overall enhanced database performance.
Upi Speed: 10.4GT/S
The HPE Xeon Platinum 8153 Processor boasts an impressive Upi (Ultra Path Interconnect) speed of 10.4GT/s. The Upi speed plays a vital role in facilitating high-speed communication between multiple processors or processor sockets.
Enhanced Scalability and System Flexibility
The high Upi speed of 10.4GT/s enables seamless scalability and system flexibility for users. It allows for efficient interconnectivity between multiple processors or processor sockets, enabling users to build systems with increased processing power and capacity. This is particularly valuable in environments that require high-performance computing, such as data centers or scientific research facilities.
Improved Data Transfer Rates
The Upi speed directly impacts the data transfer rates between processors or processor sockets. With a Upi speed of 10.4GT/s, the HPE Xeon Platinum 8153 Processor ensures fast and reliable data communication, minimizing potential bottlenecks and maximizing overall system performance. This is especially important when dealing with large datasets or workloads that involve heavy inter-processor communication.
Efficient Workload Distribution
The high Upi speed enables efficient workload distribution among multiple processors or processor sockets. This is particularly beneficial in multi-threaded applications where tasks can be divided and assigned to different processors for parallel execution. The fast communication enabled by the Upi speed ensures that tasks are distributed and completed efficiently, improving overall system productivity.
Accelerated Data Analysis
Data analysis tasks often involve processing large volumes of data, requiring substantial computational power. The high Upi speed of 10.4GT/s in the HPE Xeon Platinum 8153 Processor allows for efficient communication between multiple processors, enabling faster data analysis and reducing the time required to derive insights from complex datasets.
Optimized Performance in Clustered Environments
In clustered environments, where multiple servers or computing nodes are interconnected to work as a unified system, the Upi speed plays a crucial role in determining overall performance. With a Upi speed of 10.4GT/s, the HPE Xeon Platinum 8153 Processor ensures efficient communication between nodes, allowing for optimal resource allocation and workload distribution across the cluster.
Support for High-Performance Computing
High-performance computing (HPC) often involves complex simulations, modeling, and scientific computations that require massive computational power. The high Upi speed of 10.4GT/s in the HPE Xeon Platinum 8153 Processor enables seamless integration of multiple processors or processor sockets, providing the necessary performance for HPC environments.
Socket Type: FCLGA3647
The HPE Xeon Platinum 8153 Processor features the FCLGA3647 socket type. The socket type is an essential factor to consider when selecting a processor as it determines compatibility with motherboards and system requirements.
Wide Compatibility
The FCLGA3647 socket type ensures compatibility with a wide range of motherboards and systems designed to support this socket. This provides users with flexibility when building or upgrading their systems, as they can choose from various compatible motherboards available in the market.
Scalability and Future Upgradability
The FCLGA3647 socket type is specifically designed for high-performance processors, making it suitable for environments that require scalability and future upgradability. Users can start with the HPE Xeon Platinum 8153 Processor and later upgrade to more powerful processors without having to replace the entire motherboard or system.
Support for Advanced Features
The FCLGA3647 socket type supports advanced features such as multi-socket configurations, allowing users to build systems with multiple processors or processor sockets. This is particularly beneficial in demanding workloads that require significant computational power or in environments that demand high availability and redundancy.
Optimized Performance in Server Environments
The FCLGA3647 socket type is commonly found in server systems, where reliability, performance, and scalability are crucial. The compatibility with this socket ensures that the HPE Xeon Platinum 8153 Processor can be seamlessly integrated into server environments, providing the necessary processing power for critical applications and workloads.
Support for ECC Memory
ECC (Error-Correcting Code) memory is an essential feature in server environments that require high data reliability and integrity. The FCLGA3647 socket type supports ECC memory modules, allowing users to build systems with enhanced data protection and error detection capabilities.
Flexible System Configurations
The FCLGA3647 socket type allows for flexible system configurations. Users can choose the appropriate motherboard and system components based on their specific requirements, whether it's maximizing performance, optimizing power consumption, or balancing both. This flexibility ensures that users can customize their systems to meet their unique needs.
Manufacturing Technology: 14NM
The HPE Xeon Platinum 8153 Processor is built using a 14nm manufacturing technology. The manufacturing technology plays a crucial role in determining the efficiency, performance, and power consumption of the processor.
Improved Efficiency
The 14nm manufacturing technology allows for the creation of smaller transistors and circuitry, resulting in improved power efficiency. With smaller transistors, the HPE Xeon Platinum 8153 Processor can operate at lower voltages while maintaining optimal performance. This translates into lower power consumption and reduced heat generation, making it an ideal choice for environments that prioritize energy efficiency.
Enhanced Performance
The 14nm manufacturing technology enables the HPE Xeon Platinum 8153 Processor to pack more transistors within a given area compared to previous generations. This increased transistor density allows for improved performance, as more transistors can process instructions simultaneously. The result is faster execution of tasks, improved multitasking capabilities, and enhanced overall system performance.
Reduced Heat Generation
As technology advances, the size of transistors decreases, resulting in reduced power consumption and heat generation. The 14nm manufacturing technology used in the HPE Xeon Platinum 8153 Processor ensures that heat is efficiently dissipated, minimizing the need for additional cooling mechanisms. This is particularly important in environments where temperature control is critical, such as data centers or systems deployed in compact spaces.
Better Overclocking Potential
Overclocking refers to running a processor at a higher frequency than its default specifications. The 14nm manufacturing technology provides better overclocking potential for the HPE Xeon Platinum 8153 Processor compared to previous generations. Users who are interested in pushing their processors to higher clock speeds can benefit from the improved thermal characteristics and higher stability offered by the 14nm manufacturing process.
Optimized Power Consumption
The 14nm manufacturing technology ensures that the HPE Xeon Platinum 8153 Processor operates at an optimal balance between performance and power consumption. By utilizing smaller transistors and circuitry, the processor can deliver excellent performance while minimizing power requirements. This is particularly advantageous in environments where power consumption is a concern, as it helps reduce operational costs and environmental impact.
Longer Lifespan
The 14nm manufacturing technology contributes to the longevity of the HPE Xeon Platinum 8153 Processor. The smaller transistor size and improved thermal characteristics result in reduced stress on the processor, allowing it to operate efficiently for extended periods without significant degradation in performance. This ensures that users can rely on the processor for long-term usage without encountering stability or reliability issues.
Power Consumption: 125W
The HPE Xeon Platinum 8153 Processor has a power consumption rating of 125W. Power consumption is an essential consideration when selecting a processor, as it directly impacts energy efficiency, heat generation, and operational costs.
Energy Efficiency
With a power consumption rating of 125W, the HPE Xeon Platinum 8153 Processor strikes a balance between performance and energy efficiency. The processor is designed to deliver optimal performance while minimizing power requirements. This is particularly important in environments where energy efficiency is a priority, such as data centers or organizations looking to reduce their carbon footprint.
Reduced Heat Generation
Efficient power consumption results in reduced heat generation. The HPE Xeon Platinum 8153 Processor's 125W power consumption ensures that heat is efficiently dissipated, minimizing the need for additional cooling mechanisms. This contributes to a more stable and reliable system operation, while also reducing operational costs associated with cooling infrastructure.
Lower Operational Costs
The power consumption rating of 125W ensures that the HPE Xeon Platinum 8153 Processor operates within an optimal range, minimizing energy costs. By choosing a processor with efficient power consumption, users can significantly reduce their operational expenses, especially in environments where multiple processors are deployed.