HPE 880467-B21 Xeon Gold 6137 8 Core 3.9GHz 25MB Cache 10.4GT/S UPI Speed Socket FCLGA3647 14NM 205W Processor

Core

The HP Xeon Gold 6137 Processor is equipped with 8 cores, making it a powerful and efficient choice for users who require high-performance computing capabilities. With 8 cores, this processor can handle multiple tasks simultaneously, allowing for increased productivity and faster processing speeds. Whether you are running complex simulations, rendering graphics, or performing data analysis, the 8 cores of the HP Xeon Gold 6137 Processor ensure that your tasks are completed efficiently.

Improved Multitasking

One of the key benefits of having 8 cores is improved multitasking capabilities. Each core can handle a separate task, allowing for smoother and more efficient multitasking. This means that you can run multiple applications simultaneously without experiencing any lag or slowdown in performance. Whether you are editing videos while running a virtual machine or playing resource-intensive games while streaming, the 8 cores of the HP Xeon Gold 6137 Processor ensure that you can handle any workload without compromising on performance.

Faster Processing Speeds

The 8 cores of the HP Xeon Gold 6137 Processor also contribute to faster processing speeds. Each core operates at a high clock speed, allowing for rapid execution of instructions and calculations. This translates into faster data processing, reduced wait times, and improved overall system responsiveness. Whether you are performing complex calculations in scientific research or handling large datasets in big data analytics, the 8 cores ensure that your tasks are completed in a timely manner.

Enhanced Parallel Processing

Parallel processing refers to the ability of a computer system to perform multiple tasks simultaneously by dividing them into smaller sub-tasks that can be executed in parallel. With 8 cores, the HP Xeon Gold 6137 Processor excels at parallel processing. This is particularly beneficial for applications that can be divided into smaller independent tasks, such as video encoding, rendering, and scientific simulations. By leveraging the power of multiple cores, the processor can complete these tasks much faster than a single-core processor.

Base Clock Speed

The HP Xeon Gold 6137 Processor features a base clock speed of 3.9GHz, providing users with fast and reliable performance for demanding workloads. The base clock speed determines the minimum frequency at which the processor operates, ensuring that it can handle a wide range of tasks efficiently.

Improved Single-Core Performance

A higher base clock speed directly translates into improved single-core performance. Single-core performance is crucial for tasks that cannot be effectively parallelized across multiple cores. Examples include gaming, browsing the web, and running single-threaded applications. With a base clock speed of 3.9GHz, the HP Xeon Gold 6137 Processor ensures that these tasks are executed quickly and smoothly, providing an enhanced user experience.

Responsive System

The higher base clock speed also contributes to a more responsive system. It reduces the time taken to load applications and launch processes, resulting in a snappy and fluid user interface. Whether you are opening large files, launching resource-intensive software, or booting up your system, the 3.9GHz base clock speed of the HP Xeon Gold 6137 Processor ensures that you don't have to wait unnecessarily.

Efficient Task Execution

The increased base clock speed enables efficient task execution by reducing processing time. This is especially important for time-sensitive tasks such as real-time data analysis, financial modeling, and virtualization. The faster the processor can execute instructions, the quicker these tasks can be completed. With a base clock speed of 3.9GHz, the HP Xeon Gold 6137 Processor ensures that you can perform these demanding tasks efficiently.

Cache

The HP Xeon Gold 6137 Processor features a cache size of 25MB, which plays a vital role in improving overall system performance. The cache is a small, high-speed memory that stores frequently accessed data, providing quick access to information that the processor needs.

Reduced Memory Access Time

By storing frequently accessed data in the cache, the processor can access this information much faster than if it had to retrieve it from the main memory. This reduces memory access time, resulting in improved overall system performance. Whether you are loading applications, accessing files, or performing database queries, the 25MB cache of the HP Xeon Gold 6137 Processor ensures that data is readily available, minimizing delays and enhancing productivity.

Improved Instruction Execution

The cache also plays a crucial role in improving instruction execution. Instructions are stored in the cache so that they can be quickly retrieved by the processor when needed. With a larger cache size, more instructions can be stored, increasing the likelihood of finding the necessary instructions in the cache. This leads to faster instruction execution and improved overall system performance.

Optimized Workflow

The larger cache size of the HP Xeon Gold 6137 Processor allows for more efficient workflow optimization. When running software applications or performing complex calculations, the processor can store intermediate results in the cache, eliminating the need to repeatedly access main memory. This reduces computational overhead and improves workflow efficiency. Whether you are working on large datasets or running resource-intensive simulations, the 25MB cache ensures that your workflow remains smooth and uninterrupted.

Upi Speed

The HP Xeon Gold 6137 Processor boasts an impressive Upi Speed of 10.4GT/s (Gigatransfers per second). The Upi Speed refers to the speed at which data can be transferred between processors in a multi-processor system. It plays a crucial role in enhancing system scalability and performance.

Enhanced System Scalability

With a higher Upi Speed, the HP Xeon Gold 6137 Processor enables enhanced system scalability. In multi-processor systems, data needs to be transferred between processors to facilitate collaboration and parallel processing. The higher the Upi Speed, the faster this data transfer can occur, allowing for efficient communication between processors. This scalability is particularly important in high-performance computing environments that require massive computational power.

Reduced Bottlenecks

A higher Upi Speed helps reduce bottlenecks in multi-processor systems. When data transfer occurs at a slower rate, processors may have to wait for data from other processors, resulting in decreased performance. With a Upi Speed of 10.4GT/s, the HP Xeon Gold 6137 Processor ensures that data can be transferred quickly and efficiently, minimizing bottlenecks and maximizing system performance.

Improved Parallel Processing

The high Upi Speed of the HP Xeon Gold 6137 Processor enables improved parallel processing capabilities. In multi-processor environments, tasks can be divided among multiple processors for simultaneous execution. The faster data can be transferred between processors, the more efficiently these tasks can be executed in parallel. This leads to enhanced performance and faster completion of complex computational tasks.

Socket

The HP Xeon Gold 6137 Processor is designed to fit into a FCLGA3647 socket. The socket is a physical component that provides the mechanical and electrical connections between the processor and the motherboard. The choice of socket is crucial as it determines compatibility and plays a significant role in system performance.

Wide Motherboard Compatibility

The FCLGA3647 socket used by the HP Xeon Gold 6137 Processor ensures wide motherboard compatibility. Motherboards with this socket are designed to support the processor, allowing users to easily integrate it into their system. This compatibility is essential for users who want to upgrade their existing systems or build new systems with the HP Xeon Gold 6137 Processor.

Scalability and Future-Proofing

The FCLGA3647 socket supports a range of processors, including high-performance models like the HP Xeon Gold 6137. This scalability allows users to upgrade their processors without replacing the entire system. By choosing a processor that uses the FCLGA3647 socket, users can future-proof their systems and ensure compatibility with upcoming processor releases.

Efficient Power Delivery

The choice of socket also affects power delivery to the processor. The FCLGA3647 socket provides efficient power delivery, ensuring that the processor receives a stable and consistent power supply. This is crucial for maintaining optimal performance and preventing issues such as voltage fluctuations or power surges. With the FCLGA3647 socket, the HP Xeon Gold 6137 Processor can operate at its full potential without any power-related constraints.

Nm Technology

The HP Xeon Gold 6137 Processor is built using 14nm technology, which refers to the size of the transistors on the processor's integrated circuit. The nm (nanometer) measurement represents the distance between two adjacent transistors, with smaller numbers indicating more advanced technology.

Improved Efficiency

The 14nm technology used in the HP Xeon Gold 6137 Processor offers improved efficiency compared to older generations of processors. Smaller transistors consume less power and generate less heat, resulting in lower energy consumption and reduced cooling requirements. This leads to cost savings and a more environmentally friendly computing solution.

Increased Transistor Density

By shrinking the size of transistors, 14nm technology allows for increased transistor density on the processor. This means that more transistors can be packed into the same physical space, increasing the processing power of the processor. With a higher transistor density, the HP Xeon Gold 6137 Processor can handle more complex calculations and execute instructions at a faster rate.

Future-Proofing

The use of 14nm technology ensures that the HP Xeon Gold 6137 Processor is future-proofed to some extent. As technology continues to advance, processors built with smaller transistors are likely to have a longer lifespan before becoming outdated. By choosing a processor with 14nm technology, users can enjoy the benefits of improved efficiency and increased transistor density while ensuring compatibility with future software and hardware advancements.

Power

The HP Xeon Gold 6137 Processor has a power rating of 205W, which indicates the amount of power it consumes during operation. Power consumption is an important consideration for users as it affects energy efficiency, heat generation, and overall system performance.

Energy Efficiency

The power rating of 205W demonstrates that the HP Xeon Gold 6137 Processor is designed with energy efficiency in mind. Lower power consumption translates into reduced electricity costs, making it an environmentally friendly choice for users who prioritize energy efficiency. The processor's efficient power management features ensure that power is allocated where it is needed most, minimizing wastage and optimizing performance.

Cooling Requirements

The power rating also influences cooling requirements for the processor. Higher power consumption typically results in increased heat generation, requiring more robust cooling solutions to maintain optimal operating temperatures. However, with a power rating of 205W, the HP Xeon Gold 6137 Processor strikes a balance between performance and cooling requirements. It can be effectively cooled using standard cooling solutions, ensuring stable and reliable performance without the need for expensive cooling setups.

Optimal Performance

The power rating of a processor can impact its overall performance. In general, higher power consumption allows for increased processing power and better performance. With a power rating of 205W, the HP Xeon Gold 6137 Processor delivers optimal performance for demanding workloads. Whether you are running resource-intensive applications, virtual machines, or complex simulations, the processor's power rating ensures that it can handle these tasks efficiently and reliably.

Part Number

The HP Xeon Gold 6137 Processor is identified by the part number 880467-B21. The part number serves as a unique identifier for the processor, allowing users to easily identify and locate the specific model they require.

Product Identification

The part number 880467-B21 simplifies the process of identifying and locating the HP Xeon Gold 6137 Processor. When searching for or purchasing the processor, users can simply refer to the part number to ensure that they are selecting the correct model. This eliminates any confusion or ambiguity that may arise from different naming conventions or variations of the same processor.

Compatibility Assurance

The part number also plays a crucial role in ensuring compatibility with other system components. By referring to the part number, users can verify that the processor is compatible with their existing motherboard or other hardware components. This compatibility assurance is essential to avoid any compatibility issues that may arise from using mismatched or incompatible components.

Easy Replacement and Upgrades

The use of a unique part number simplifies the process of replacing or upgrading the HP Xeon Gold 6137 Processor in the future. By referencing the part number, users can easily find an exact replacement or identify a compatible upgrade. This streamlines the upgrade process and reduces downtime, ensuring a smooth transition to the new processor without any compatibility or performance issues.