HPE 826870-B21 Xeon Gold 6132 14-Core Processor 2.6GHz 19.25MB L3 Cache
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SKU/MPN | Warranty | Price | Condition | You save |
---|---|---|---|---|
826870-B21 | Six-Month (180 Days) | $268.00 | Factory-Sealed New in Original Box (FSB) | You save: $104.60 (28%) |
826870-B21 | Six-Month (180 Days) | $187.00 | New (System) Pull | You save: $145.10 (44%) |
Product Overview
General Information
- Category: Server Processor
- Manufacturer: Hewlett Packard Enterprise
- Part Number: 826870-B21
- Model: Gold 6132
Technical Specifications
Processor Details
- Cores: 14-core
- Base Clock Speed: 2.60 GHz
- Turbo Boost Frequency: 3.70 GHz
- Ultrapath Interconnect (UPI) Speed: 10.4 GT/s
- UPI Links Count: 3
- Architecture: 64-bit
- Instruction Set Extensions: Intel® SSE4.2, Intel® AVX, Intel® AVX2, Intel® AVX-512
Cache Memory
- L3 Cache Size: 19.25 MB
- Fabrication Process: 14nm
- Thermal Design Power (TDP): 140W
- Socket Compatibility: FCLGA3647
Memory Features
Specifications
- Maximum Memory Capacity: 768 GB (varies by memory type)
- Supported Memory Types: DDR4-2666
- Peak Memory Speed: 2.67 GHz
- Maximum Memory Channels: 6
- ECC Memory Support: Yes
Processor Type: Intel Xeon Gold 6132
The HPE 826870-B21 Processor features the powerful Intel Xeon Gold 6132, which is designed to deliver exceptional performance and reliability for demanding workloads. As a member of the Intel Xeon Gold family, the 6132 processor is built with advanced technologies that enable it to handle intensive tasks with ease.
Enhanced Performance
With its high core count and clock speed, the Intel Xeon Gold 6132 processor provides enhanced performance for various applications. It features 14 cores and supports up to 28 threads, allowing for efficient multitasking and seamless execution of resource-intensive tasks. This makes it an ideal choice for data centers, cloud computing, virtualization, and other demanding workloads.
Improved Responsiveness
The Intel Xeon Gold 6132 processor's architecture is optimized for improved responsiveness, ensuring quick and smooth operations. It incorporates advanced technologies such as Intel Turbo Boost Technology 2.0, which dynamically increases the processor's frequency to deliver additional performance when needed. This results in faster response times, reduced latency, and an overall improved user experience.
Reliable Workload Management
The Intel Xeon Gold 6132 processor is designed to handle heavy workloads efficiently. It supports advanced features such as Intel Hyper-Threading Technology, which allows each core to handle two threads simultaneously. This increases the processor's overall throughput and enables efficient workload management, ensuring that tasks are completed quickly and efficiently.
Optimized Virtualization Performance
Virtualization has become an integral part of modern computing environments, enabling efficient resource allocation and management. The Intel Xeon Gold 6132 processor is specifically optimized for virtualization workloads. Its high core count and advanced virtualization technologies, such as Intel Virtualization Technology (VT-x), ensure smooth and efficient virtual machine performance, allowing for greater consolidation and utilization of resources.
Scalability and Future-Proofing
The Intel Xeon Gold 6132 processor provides scalability and future-proofing for businesses and organizations. Its powerful performance and advanced features make it suitable for a wide range of applications, allowing businesses to scale their operations as needed without worrying about performance bottlenecks. Additionally, the processor's compatibility with future technologies ensures that it will remain relevant and capable of handling upcoming workloads.
Core Count: 14
The HPE 826870-B21 Processor boasts an impressive core count of 14. This means that it has 14 independent processing units, each capable of executing tasks simultaneously. The high core count offers several benefits for users, including improved multitasking capabilities, enhanced parallel processing, and increased overall system performance.
Efficient Multitasking
The 14 cores of the HPE 826870-B21 Processor allow for efficient multitasking. Users can run multiple applications simultaneously without experiencing significant slowdowns or performance degradation. This is particularly beneficial for power users, content creators, and professionals who rely on running multiple resource-intensive applications concurrently.
Enhanced Parallel Processing
The large number of cores in the HPE 826870-B21 Processor enables enhanced parallel processing capabilities. Parallel processing refers to the execution of multiple tasks simultaneously, which can significantly improve overall system performance. With 14 cores available, the processor can distribute tasks across multiple cores, resulting in faster execution times and improved efficiency.
Optimized for Multithreaded Workloads
Many modern applications are designed to take advantage of multithreading, where tasks are divided into smaller threads that can be executed independently. The 14 cores of the HPE 826870-B21 Processor allow for efficient execution of multithreaded workloads. Each core can handle multiple threads simultaneously, maximizing the processor's performance potential.
Seamless Virtualization
The high core count of the HPE 826870-B21 Processor makes it an excellent choice for virtualization environments. Virtualization enables the creation of multiple virtual machines, each running its own operating system and applications. With 14 cores, the processor can allocate sufficient resources to each virtual machine, ensuring smooth and responsive performance for virtualized workloads.
Future-Proofing and Scalability
The 14-core configuration of the HPE 826870-B21 Processor provides future-proofing and scalability for users. As software and applications continue to evolve and demand more processing power, having a higher number of cores ensures that the processor can handle future workloads effectively. Additionally, businesses and organizations can scale their operations without worrying about inadequate processing power.
Base Clock Speed: 2.6GHz
The HPE 826870-B21 Processor features a base clock speed of 2.6GHz, which represents the frequency at which the processor operates under normal conditions. The base clock speed is an essential specification as it directly affects the overall performance and responsiveness of the system.
Responsive Performance
A higher base clock speed, such as the 2.6GHz offered by the HPE 826870-B21 Processor, translates into more responsive performance. The processor can quickly execute instructions and process data, resulting in snappy application launches, smooth multitasking, and reduced latency. Users will experience faster response times when interacting with their system, enhancing productivity and user satisfaction.
Efficient Task Execution
The 2.6GHz base clock speed allows the HPE 826870-B21 Processor to efficiently execute tasks. Whether it's running complex calculations, rendering graphics, or handling large datasets, the processor can process information at a rapid pace. This is especially beneficial for resource-intensive applications and workloads, where fast data processing is crucial for maintaining smooth operations.
Boosted Performance with Turbo Boost
In addition to its base clock speed, the HPE 826870-B21 Processor features Intel Turbo Boost Technology. This technology dynamically increases the processor's frequency beyond the base clock speed when additional performance is required. This means that the processor can automatically ramp up its speed to handle demanding tasks, providing an extra performance boost when needed.
Smooth Multimedia Playback
The higher base clock speed of the HPE 826870-B21 Processor ensures smooth multimedia playback. Whether it's streaming high-definition videos, editing multimedia content, or playing graphics-intensive games, the processor can handle these tasks effortlessly. The increased clock speed enables a seamless multimedia experience, with reduced stuttering and improved frame rates.
Efficient Power Management
Despite its high clock speed, the HPE 826870-B21 Processor incorporates efficient power management features. These features ensure that the processor operates within acceptable thermal limits and power consumption levels. By intelligently adjusting power delivery based on workload demands, the processor optimizes energy efficiency without sacrificing performance.
L3 Cache: 19.25MB
The HPE 826870-B21 Processor boasts a generous L3 cache size of 19.25MB. The L3 cache plays a crucial role in improving overall system performance by providing fast access to frequently used data. A larger L3 cache size offers several benefits, including reduced memory latency, improved application responsiveness, and enhanced multitasking capabilities.
Reduced Memory Latency
The larger L3 cache size of 19.25MB in the HPE 826870-B21 Processor helps reduce memory latency. Latency refers to the time it takes for the processor to access data from the system's memory. With a larger cache, commonly used data can be stored closer to the processor, reducing the need to access the main memory frequently. This results in faster data retrieval and improved overall system performance.
Improved Application Responsiveness
The generous L3 cache size of the HPE 826870-B21 Processor enhances application responsiveness. Frequently accessed data and instructions are stored in the cache, allowing for quick retrieval when needed. This means that applications can load faster, respond promptly to user input, and deliver a smoother user experience. Whether it's launching applications, browsing the web, or performing complex calculations, users will notice improved responsiveness.
Efficient Multitasking
A larger L3 cache size enables efficient multitasking capabilities. The HPE 826870-B21 Processor can store a significant amount of data in its cache, including instructions and data from multiple running applications. This allows for seamless context switching between applications, resulting in smoother multitasking and reduced performance overhead. Users can switch between tasks effortlessly without experiencing significant slowdowns.
Optimized Data Access
The larger L3 cache size optimizes data access for the HPE 826870-B21 Processor. With more space available in the cache, a greater amount of data can be stored closer to the processor, reducing the need to access slower system memory. This improves overall data throughput and ensures that the processor can efficiently access the necessary data for executing tasks. The result is faster data processing and improved system performance.
Enhanced Virtual Machine Performance
The generous L3 cache size of the HPE 826870-B21 Processor translates into enhanced virtual machine performance. When running virtualized workloads, each virtual machine can benefit from a dedicated portion of the cache, allowing for efficient data sharing and reduced contention. This ensures smooth and responsive performance for virtualized applications and workloads.
Upi Speed: 10.4GT/S
The HPE 826870-B21 Processor features a Upi Speed of 10.4GT/S. UPI, which stands for Ultra Path Interconnect, is an interconnect technology that facilitates high-speed communication between processors in multi-socket systems. The UPI Speed is an important specification as it determines the speed at which processors can exchange data and collaborate on tasks.
Efficient Data Exchange
The Upi Speed of 10.4GT/S enables efficient data exchange between processors in multi-socket systems. In a multi-socket configuration, where multiple processors are interconnected, fast and reliable communication is essential for seamless collaboration on tasks. The high UPI Speed ensures that data can be transferred quickly between processors, minimizing latency and optimizing overall system performance.
Scalability and Flexibility
The Upi Speed of 10.4GT/S provides scalability and flexibility for multi-socket systems. It allows for easy expansion by adding additional processors to the system without sacrificing performance. As workload demands increase, businesses and organizations can scale their systems by adding more processors, ensuring that the system can handle growing workloads effectively.
Optimized for Parallel Processing
The high Upi Speed of the HPE 826870-B21 Processor is particularly beneficial for parallel processing workloads. In parallel processing, multiple processors work together to execute tasks simultaneously, significantly improving performance. The fast UPI Speed enables efficient communication between processors, ensuring that they can collaborate seamlessly on parallelized workloads, resulting in faster execution times and improved overall system performance.
Enhanced Virtualization Performance
The Upi Speed of 10.4GT/S enhances virtualization performance in multi-socket systems. Virtualization involves running multiple virtual machines on a single physical server, allowing for efficient utilization of resources. The high UPI Speed enables fast and reliable communication between processors, ensuring smooth and responsive performance for virtualized workloads. This allows businesses to consolidate their infrastructure and maximize resource utilization.
Reliable System Interconnect
The Upi Speed of 10.4GT/S ensures a reliable interconnect between processors in multi-socket systems. The technology behind UPI enables error correction, fault tolerance, and redundancy, ensuring that data transmission is accurate and secure. This reliability is crucial for critical applications, high-performance computing, and other demanding workloads where data integrity is paramount.
Socket Type: FCLGA3647
The HPE 826870-B21 Processor features the FCLGA3647 socket type, which is specifically designed for high-performance server processors. The socket type determines how the processor is physically connected to the motherboard. The FCLGA3647 socket offers several benefits, including compatibility with powerful server processors, efficient power delivery, and support for advanced features.
Powerful Server Processor Compatibility
The FCLGA3647 socket type is compatible with powerful server processors, making it an excellent choice for high-performance computing environments. Server processors are specifically designed to handle demanding workloads, such as data analytics, virtualization, and cloud computing. The FCLGA3647 socket ensures that the processor can be securely installed and operate optimally within the server infrastructure.
Efficient Power Delivery
The FCLGA3647 socket type enables efficient power delivery to the processor. High-performance server processors require a stable and reliable power supply to operate at their full potential. The FCLGA3647 socket incorporates efficient power delivery mechanisms, ensuring that the processor receives the necessary power without excessive power loss or overheating. This results in improved energy efficiency and stable performance.
Support for Advanced Features
The FCLGA3647 socket type supports advanced features found in high-performance server processors. These features include error correction code (ECC) memory support, virtualization technologies, and enhanced security features. The socket provides the necessary connections and interfaces for these advanced features, allowing businesses and organizations to leverage the full capabilities of their server processors.
Scalability and Future-Proofing
The FCLGA3647 socket type offers scalability and future-proofing for server systems. Businesses and organizations can start with a single processor configuration and easily scale their infrastructure by adding additional processors as their workload demands increase. The FCLGA3647 socket ensures compatibility with a wide range of server processors, allowing for seamless upgrades and expansion without requiring a complete system overhaul.
Reliable and Secure Connection
The FCLGA3647 socket type provides a reliable and secure connection between the processor and the motherboard. The socket's design ensures a firm connection, minimizing the risk of disconnection or damage due to vibrations or movement. Additionally, the secure connection ensures optimal data transmission between the processor and other components, minimizing data loss or corruption.
Manufacturing Technology: 14NM
The HPE 826870-B21 Processor is manufactured using the advanced 14nm manufacturing technology. The manufacturing technology refers to the process by which the processor's transistors and other components are fabricated on the silicon wafer. The use of the 14nm process offers several benefits, including improved performance, energy efficiency, and reduced heat generation.
Enhanced Performance
The 14nm manufacturing technology allows for the creation of smaller and more efficient transistors, which are the building blocks of a processor. Smaller transistors result in shorter distances for electrical signals to travel, reducing latency and improving overall performance. The HPE 826870-B21 Processor benefits from this enhanced performance, delivering faster data processing and improved system responsiveness.
Energy Efficiency
The use of the 14nm manufacturing technology enables energy-efficient operation for the HPE 826870-B21 Processor. Smaller transistors require less power to switch on and off, reducing power consumption. This leads to lower energy costs and reduced heat generation, making it an ideal choice for server environments where energy efficiency is crucial. Additionally, the lower power consumption contributes to a greener and more sustainable computing infrastructure.
Reduced Heat Generation
The 14nm manufacturing technology helps reduce heat generation in the HPE 826870-B21 Processor. As transistors become smaller and more efficient, they produce less heat during operation. This is beneficial for maintaining optimal operating temperatures in server environments, where excessive heat can lead to performance degradation or system instability. The reduced heat generation also contributes to overall system reliability and longevity.
Improved Transistor Density
The 14nm manufacturing technology allows for higher transistor densities in the HPE 826870-B21 Processor. This means that more transistors can be packed into a smaller area, increasing the processor's computational power. The improved transistor density enables the processor to handle more complex calculations