HPE 826870-B21 Xeon Gold 6132 14-Core Processor 2.6GHz 19.25MB L3 Cache

Processor Type: Intel Xeon Gold 6132

The HPE 826870-B21 Processor is powered by the Intel Xeon Gold 6132, which is a high-performance processor designed for demanding workloads. The Intel Xeon Gold 6132 is part of the Intel Xeon Scalable Processor family, which offers advanced features and capabilities to meet the needs of modern data centers and enterprise applications.

High Performance

The Intel Xeon Gold 6132 is built on the latest architecture and features advanced technologies that deliver exceptional performance. With a base clock speed of 2.6GHz and Turbo Boost technology, this processor can handle demanding tasks with ease. Whether you are running complex simulations, performing data analysis, or running virtual machines, the Intel Xeon Gold 6132 provides the power you need to get the job done quickly and efficiently.

Enhanced Security

Security is a top concern for businesses, especially in today's threat landscape. The Intel Xeon Gold 6132 includes advanced security features that help protect your data and infrastructure. With Intel's Trusted Execution Technology (TXT) and Intel Software Guard Extensions (SGX), you can safeguard your sensitive information and prevent unauthorized access. These security features ensure that your data remains safe and secure.

Improved Virtualization

In today's virtualized environments, efficient resource utilization is crucial. The Intel Xeon Gold 6132 supports advanced virtualization technologies such as Intel Virtualization Technology (VT-x) and Intel Virtualization Technology for Directed I/O (VT-d). These features enable better performance, scalability, and isolation in virtualized environments, allowing you to maximize your server resources and reduce costs.

Optimized Workloads

The Intel Xeon Gold 6132 is designed to handle a wide range of workloads, from enterprise applications to high-performance computing. With support for Intel Advanced Vector Extensions 512 (AVX-512), this processor accelerates compute-intensive tasks, such as scientific simulations and financial modeling. Whether you are running AI workloads, rendering complex graphics, or analyzing large datasets, the Intel Xeon Gold 6132 delivers the performance you need.

Reliability and Availability

Businesses rely on their servers to be available 24/7. The Intel Xeon Gold 6132 includes features that enhance reliability and availability. With Intel Run Sure Technology, this processor can detect and correct errors in real time, minimizing downtime and ensuring continuous operation. Additionally, Intel Data Center Persistent Memory delivers higher capacity and reliability compared to traditional memory technologies, allowing for more efficient data processing and storage.

Energy Efficiency

In today's environmentally conscious world, energy efficiency is a key consideration for businesses. The Intel Xeon Gold 6132 is designed with power efficiency in mind. With a power consumption of 140W, this processor delivers high performance while minimizing energy consumption. This not only helps reduce operating costs but also contributes to a greener IT infrastructure.

Core Count: 14

The HPE 826870-B21 Processor features 14 cores, which provide significant advantages in terms of performance and multitasking capabilities. With 14 cores, this processor can handle multiple tasks simultaneously, allowing for faster and more efficient processing of data.

Increased Performance

More cores mean more processing power. The 14 cores in the HPE 826870-B21 Processor enable faster and more efficient execution of tasks. Whether you are running multiple applications simultaneously or performing resource-intensive computations, the increased core count allows for better performance and responsiveness.

Improved Multitasking

In today's fast-paced digital world, multitasking has become a necessity. The 14 cores in this processor enable you to run multiple applications and processes concurrently without sacrificing performance. This means you can work on complex tasks, such as video editing or data analysis, while running other applications in the background, all without experiencing significant slowdowns.

Enhanced Virtualization

Virtualization is a key technology that allows businesses to maximize their server resources and improve efficiency. The 14 cores in the HPE 826870-B21 Processor support advanced virtualization technologies, enabling better performance and scalability in virtualized environments. With more cores, you can run more virtual machines simultaneously, increasing resource utilization and reducing costs.

Efficient Resource Allocation

With 14 cores, you can allocate computing resources more effectively. By dividing the workload across multiple cores, you can ensure that each task receives sufficient processing power. This leads to better load balancing and improved overall system performance. Whether you are running a database server or a high-traffic website, the increased core count allows for efficient resource allocation and optimal performance.

Seamless Multithreading

The HPE 826870-B21 Processor supports simultaneous multithreading (SMT) technology, which allows each core to handle multiple threads simultaneously. With 14 cores and SMT, this processor can execute up to 28 threads at once, further enhancing multitasking capabilities. This is particularly beneficial for applications that are heavily threaded, such as video rendering or scientific simulations.

Future-Proofing

Investing in a processor with a higher core count provides future-proofing for your system. As software and applications become more parallelized and take advantage of multiple cores, having 14 cores ensures that your system can handle the demands of future workloads. This means you can extend the lifespan of your server and avoid costly upgrades in the near future.

Base Clock Speed: 2.6GHz

The HPE 826870-B21 Processor has a base clock speed of 2.6GHz, which is the frequency at which the processor operates under normal conditions without any Turbo Boost or overclocking. The base clock speed is an important specification that determines the overall performance and responsiveness of the processor.

Optimal Performance

A higher base clock speed translates to better performance and faster execution of tasks. With a base clock speed of 2.6GHz, the HPE 826870-B21 Processor delivers excellent performance for a wide range of applications. Whether you are running single-threaded tasks or multithreaded workloads, the higher base clock speed ensures smooth and efficient operation.

Responsiveness

A higher base clock speed results in better system responsiveness. Tasks such as opening applications, loading files, and navigating through the operating system feel faster and more fluid with a higher base clock speed. This is particularly important for users who rely on their systems for productivity or gaming, as it enhances the overall user experience.

Efficiency

While higher clock speeds generally lead to better performance, it's important to strike a balance with power consumption and efficiency. The 2.6GHz base clock speed of the HPE 826870-B21 Processor offers a good balance between performance and power efficiency. It delivers excellent performance while minimizing energy consumption, resulting in a more sustainable and cost-effective solution.

Single-Threaded Performance

Many applications, especially legacy or single-threaded ones, rely heavily on the performance of a single core. The higher base clock speed of 2.6GHz ensures that these applications can run at optimal speeds, delivering the performance users expect. Whether you are running older software or specialized applications that are not heavily multithreaded, the higher base clock speed ensures smooth operation.

Overclocking Potential

The base clock speed provides a solid foundation for potential overclocking. Overclocking refers to running the processor at speeds higher than the specified base clock speed. With a base clock speed of 2.6GHz, users have the opportunity to push the processor's limits and achieve even higher performance by carefully adjusting settings and cooling solutions. However, it's important to note that overclocking may void warranties and requires careful consideration of system stability and heat management.

L3 Cache: 19.25MB

The HPE 826870-B21 Processor features a generous L3 cache size of 19.25MB, which plays a crucial role in improving overall performance by reducing memory latency and increasing data access speeds. The L3 cache acts as a middle ground between the processor cores and the main memory, providing a fast storage space for frequently accessed data.

Improved Memory Performance

The larger L3 cache size allows for more efficient memory access. When a processor needs to access data, it first checks the L3 cache. If the data is present in the cache, it can be retrieved much faster compared to fetching it from the main memory. This reduces latency and improves overall system performance, especially in applications that rely heavily on repetitive data access or large data sets.

Enhanced Multitasking

The larger L3 cache size enables better multitasking capabilities. In a multitasking environment, where multiple applications or processes are running simultaneously, the L3 cache can store frequently accessed data from different tasks. This reduces the need to constantly fetch data from the main memory, resulting in smoother multitasking and improved responsiveness.

Accelerated Data Processing

The larger L3 cache size provides a greater capacity for storing instructions and data, which can significantly speed up data processing. This is particularly beneficial for applications that require frequent access to large datasets or perform complex calculations. By reducing the time spent on memory accesses, the 19.25MB L3 cache of the HPE 826870-B21 Processor allows for faster execution of tasks and improved overall performance.

Improved Gaming Performance

Gaming relies heavily on fast data access and smooth execution of instructions. The larger L3 cache size of 19.25MB enhances gaming performance by reducing loading times, improving frame rates, and ensuring smoother gameplay. With faster data access and reduced latency, gamers can enjoy a more immersive and responsive gaming experience.

Efficient Resource Utilization

The larger L3 cache size helps optimize resource utilization by reducing memory bottlenecks. By storing frequently accessed data in the cache, the processor can efficiently utilize available resources without waiting for data to be fetched from the main memory. This improves overall system efficiency and allows for better utilization of CPU cores, resulting in higher productivity and performance.

Improved Virtualization

In virtualized environments, efficient resource utilization is essential. The larger L3 cache size of 19.25MB enhances virtualization performance by reducing memory latency and improving overall system responsiveness. This allows for better utilization of virtual machines and improves the performance of resource-intensive applications running in virtualized environments.

Upi Speed: 10.4GT/s

The HPE 826870-B21 Processor features an UPI (Ultra Path Interconnect) speed of 10.4GT/s. UPI is a high-speed interconnect technology developed by Intel that allows for fast communication between processors in multi-socket systems. The UPI speed plays a crucial role in enabling efficient data transfer and synchronization between processor cores.

Enhanced Scalability

With an UPI speed of 10.4GT/s, the HPE 826870-B21 Processor provides excellent scalability in multi-socket systems. In systems with multiple processors, the UPI speed determines the bandwidth available for data transfer between the processors. A higher UPI speed enables faster communication and synchronization between processor cores, allowing for better scaling and improved performance in multi-socket configurations.

Improved Data Transfer

The higher UPI speed of 10.4GT/s ensures fast and efficient data transfer between processor cores. This is particularly important for applications that require frequent communication and data sharing between different cores, such as parallel processing or distributed computing. The faster data transfer enabled by the UPI speed enhances overall system performance and reduces latency.

Reduced Latency

Latency refers to the time delay between initiating a request and receiving a response. A higher UPI speed reduces latency by allowing for faster data transfer between processor cores. This is especially beneficial for applications that rely on real-time processing or require quick responses, such as financial trading systems or real-time simulations. The reduced latency improves system responsiveness and ensures smooth operation even in demanding scenarios.

Optimized Workload Distribution

The higher UPI speed enables efficient workload distribution in multi-socket systems. In systems with multiple processors, workload distribution is crucial to ensure that tasks are evenly distributed across cores for optimal performance. The faster UPI speed of 10.4GT/s allows for faster communication between processor cores, enabling efficient workload distribution and ensuring that each core receives the necessary data and instructions to execute tasks effectively.

Improved System Reliability

The UPI speed also plays a role in system reliability. In multi-socket systems, efficient communication between processors is essential to ensure data consistency and prevent errors. The higher UPI speed of 10.4GT/s enhances system reliability by reducing the chances of data corruption or synchronization issues between processor cores. This ensures that critical workloads can be executed without interruptions or inconsistencies.

Socket Type: FCLGA3647

The HPE 826870-B21 Processor utilizes the FCLGA3647 socket type, which is designed specifically for high-performance processors such as the Intel Xeon series. The socket serves as the physical interface between the processor and the motherboard, providing power, data transfer, and mechanical support.

Robust Connection

The FCLGA3647 socket type provides a robust and secure connection between the processor and the motherboard. This ensures stable and reliable performance, even in demanding environments. The socket features a large number of pins that establish electrical connections with the processor, allowing for efficient power delivery and data transfer.

Scalability

The FCLGA3647 socket type offers excellent scalability, making it suitable for high-performance workloads and future expansion. With this socket type, you have the flexibility to upgrade your processor to more powerful models in the future without having to replace the entire motherboard. This allows for cost-effective scalability and ensures that your system can handle evolving workloads.

Support for Advanced Features

The FCLGA3647 socket type supports a wide range of advanced features and technologies, including high-speed memory interfaces, PCIe lanes, and advanced power management capabilities. This allows for the integration of cutting-edge components and enables the processor to take full advantage of the latest technologies, maximizing performance and efficiency.

Compatibility

The FCLGA3647 socket type ensures compatibility with a variety of server and workstation motherboards. This provides flexibility in choosing the right motherboard for your specific requirements, whether you are building a high-performance workstation or a large-scale data center. The wide availability of FCLGA3647-compatible motherboards ensures that you can easily find a suitable platform for your HPE 826870-B21 Processor.

Easy Installation

The FCLGA3647 socket type facilitates easy installation and replacement of the processor. With its robust design and clearly defined alignment features, the socket ensures that the processor is correctly positioned and securely mounted onto the motherboard. This simplifies the installation process and reduces the chances of damage to the processor or motherboard during installation.

Nm Technology: 14NM

The HPE 826870-B21 Processor is built on the 14nm manufacturing technology, which refers to the size of the transistors used in the processor's fabrication process. The nm (nanometer) measurement represents the distance between two identical features on a semiconductor chip, with a smaller value indicating a more advanced manufacturing process.

Improved Efficiency

The 14nm technology offers improved efficiency compared to previous generations. With smaller transistors, the processor can achieve higher performance while consuming less power. This results in improved energy efficiency, reduced heat generation, and lower operating costs. The HPE 826870-B21 Processor's 14nm technology ensures that you can maximize performance while minimizing environmental impact.

Increased Density

The 14nm manufacturing process allows for higher transistor density, meaning more transistors can be packed