HPE Gold 6242 16-Core Xeon 2.8GHz Processor P05696-B21

Cores: 16

The HPE Gold 6242 Processor is equipped with a remarkable feature - 16 cores. This means that it has 16 independent processing units that can handle tasks simultaneously, providing users with exceptional performance and efficiency. With a high number of cores, this processor can handle heavy workloads and multitasking with ease.

Improved Multithreading

Having 16 cores allows the HPE Gold 6242 Processor to efficiently handle multithreaded applications. Multithreading is the ability of a processor to execute multiple tasks or threads simultaneously. With more cores, the processor can assign each task to a separate core, ensuring smooth execution and reducing processing time. This is particularly beneficial for users who frequently run resource-intensive applications or perform complex calculations.

Enhanced Parallel Processing

The increased number of cores also enables enhanced parallel processing. Parallel processing refers to the ability of a processor to divide a task into smaller parts and process them simultaneously. With 16 cores, the HPE Gold 6242 Processor can efficiently distribute the workload, accelerating the overall processing speed. This is advantageous for tasks such as video editing, rendering, scientific simulations, and other computationally intensive operations.

Improved Responsiveness

The 16 cores of the HPE Gold 6242 Processor contribute to improved system responsiveness. With multiple cores available for handling different tasks, the processor can quickly respond to user inputs and execute commands without delay. This ensures a smooth and seamless user experience, especially when running demanding applications or engaging in intensive multitasking.

Efficient Virtualization

Virtualization is widely used in modern computing environments to maximize resource utilization and improve efficiency. The HPE Gold 6242 Processor's 16 cores enable efficient virtualization by allowing multiple virtual machines to run simultaneously without compromising performance. This is crucial for organizations that rely on virtualization technology to optimize their infrastructure and streamline operations.

Scalability and Future-Proofing

With 16 cores, the HPE Gold 6242 Processor offers scalability and future-proofing capabilities. As software and applications continue to evolve, they are increasingly optimized for multi-core processors. By investing in a processor with a high core count, users can ensure compatibility with future software updates and take advantage of new features and optimizations.

Base Clock Speed: 2.8GHz

The base clock speed of the HPE Gold 6242 Processor is set at an impressive 2.8GHz. This is the speed at which the processor operates under normal conditions without any Turbo Boost or overclocking. The base clock speed plays a significant role in determining the overall performance and responsiveness of the processor.

Efficient Task Execution

A higher base clock speed allows the HPE Gold 6242 Processor to execute tasks more quickly and efficiently. The processor's cores operate at this speed by default, ensuring that routine tasks and everyday computing activities are performed swiftly. This is particularly beneficial for users who require fast processing for activities such as web browsing, document editing, and general productivity tasks.

Improved Single-Threaded Performance

The base clock speed also influences the single-threaded performance of the processor. Single-threaded performance refers to the ability of a processor to handle tasks that cannot be divided into smaller parts and require sequential execution. With a higher base clock speed, the HPE Gold 6242 Processor can handle single-threaded tasks more efficiently, resulting in improved overall performance.

Optimal Power Management

The base clock speed of the HPE Gold 6242 Processor is carefully designed to balance performance and power consumption. The processor operates at a speed that provides sufficient processing power while minimizing energy usage. This ensures optimal power management, reducing electricity costs and contributing to environmental sustainability.

Compatibility with Software Requirements

Many software applications, especially those used in professional environments, have minimum system requirements that include a certain base clock speed. The HPE Gold 6242 Processor's 2.8GHz base clock speed meets or exceeds the recommended specifications of most software, ensuring compatibility and smooth operation. This allows users to run resource-intensive applications without experiencing performance issues or compatibility errors.

Overclocking Potential

The base clock speed serves as a reference point for overclocking enthusiasts. Overclocking involves increasing the clock speed of a processor beyond its default settings to achieve higher performance levels. With a base clock speed of 2.8GHz, the HPE Gold 6242 Processor provides a solid foundation for overclocking, allowing users to push the limits of their system's performance if desired.

Smart Cache: 22MB

The HPE Gold 6242 Processor is equipped with a generous smart cache size of 22MB. Smart cache is a high-speed memory storage unit integrated into the processor, providing quick access to frequently used data. The substantial cache size offers several benefits in terms of performance, responsiveness, and efficiency.

Faster Data Retrieval

The large smart cache size allows the HPE Gold 6242 Processor to store a significant amount of frequently accessed data closer to the cores. This enables faster retrieval of data, reducing latency and improving overall system performance. When applications or tasks require accessing specific data repeatedly, the processor can quickly retrieve it from the cache, eliminating the need to fetch it from slower components such as RAM or storage devices.

Improved Multitasking Performance

The 22MB smart cache size enhances multitasking performance. When multiple applications are running simultaneously, each with its own data requirements, the processor can efficiently manage and prioritize data access by utilizing the cache. This results in smoother multitasking experiences, as the processor can seamlessly switch between tasks without unnecessary delays caused by data retrieval.

Enhanced Gaming Experience

Gaming enthusiasts will appreciate the benefits of the HPE Gold 6242 Processor's large smart cache. Games often rely on frequent data access, such as loading textures, models, and other game assets. With a substantial smart cache, the processor can store frequently used game data, reducing load times and improving in-game performance. This translates to smoother gameplay, reduced stuttering, and a more immersive gaming experience.

Efficient Program Execution

The smart cache size of 22MB enables efficient program execution. When executing software or running applications, the processor can temporarily store relevant program instructions and data in the cache. This allows for quicker access and retrieval of instructions during program execution, minimizing processing delays and improving overall program performance.

Reduced Memory Bottleneck

A larger smart cache size helps reduce memory bottlenecks. When a processor requires data that is not stored in the cache, it needs to retrieve it from system memory. If the cache is small, frequent data fetches from memory can introduce delays and limit performance. However, with a 22MB smart cache, the HPE Gold 6242 Processor can store a significant amount of data closer to the cores, reducing the reliance on system memory and mitigating potential bottlenecks.

Upi Speed: 10.4GT/S

The HPE Gold 6242 Processor features a remarkable Upi (Ultra Path Interconnect) speed of 10.4GT/s. Upi is an interconnect technology used in multi-socket server configurations to enable fast and efficient communication between processors. The high Upi speed of this processor offers several benefits in terms of scalability, data transfer, and system performance.

Enhanced Scalability

The Upi speed of 10.4GT/s allows the HPE Gold 6242 Processor to scale effectively in multi-socket server configurations. In environments where multiple processors are interconnected, a high-speed interconnect is crucial for efficient communication and synchronization between the processors. With a Upi speed of 10.4GT/s, this processor can handle the demands of complex server setups, ensuring seamless scalability and optimal performance.

Rapid Data Transfer

The high Upi speed enables rapid data transfer between processors in a multi-socket configuration. In scenarios where data needs to be exchanged between processors or shared across cores, a fast interconnect ensures minimal latency and efficient data transmission. This is particularly crucial for applications that rely on interprocessor communication, such as distributed computing, data analysis, and virtualization.

Improved System Responsiveness

A high Upi speed contributes to improved system responsiveness by reducing communication delays between processors. When tasks require coordination or synchronization across multiple cores or processors, a fast interconnect ensures that the necessary data and instructions are transmitted swiftly. This results in faster execution times, minimized idle periods, and overall improved system responsiveness.

Efficient Load Balancing

In multi-socket server configurations, load balancing is essential to distribute computational tasks evenly across processors. The high Upi speed of 10.4GT/s facilitates efficient load balancing by enabling rapid communication and data exchange between processors. This ensures that workloads are distributed optimally, maximizing system performance and preventing individual processors from becoming overwhelmed.

Optimized Virtualization Performance

Virtualization environments heavily rely on efficient interprocessor communication to deliver optimal performance. The HPE Gold 6242 Processor's Upi speed of 10.4GT/s ensures smooth operation and enhanced performance in virtualized environments. By minimizing communication overhead, this processor enables seamless migration of virtual machines, efficient resource sharing, and improved overall virtualization performance.

Socket Type: FCLGA3647

The HPE Gold 6242 Processor features the FCLGA3647 socket type. The socket type refers to the physical interface that connects the processor to the motherboard. The FCLGA3647 socket is specifically designed for high-performance server processors, offering several benefits in terms of compatibility, scalability, and robustness.

Compatibility with Server Platforms

The FCLGA3647 socket type ensures compatibility with server platforms that support this socket standard. Server motherboards are designed to accommodate specific socket types, and the FCLGA3647 is widely adopted in enterprise-grade server configurations. By using a processor with the same socket type as the motherboard, users can easily integrate the HPE Gold 6242 Processor into their existing server infrastructure without compatibility issues.

Scalability and Expansion

The FCLGA3647 socket type enables scalability and expansion possibilities. Server environments often require flexibility for future growth or the addition of more powerful processors. With the FCLGA3647 socket, users can upgrade their server infrastructure by installing higher-performance processors without replacing the entire motherboard. This provides a cost-effective solution for scaling server resources as business needs evolve.

Robust and Secure Connection

The FCLGA3647 socket type ensures a robust and secure connection between the processor and the motherboard. The socket design allows for a precise fit, minimizing the risk of connectivity issues or physical damage during installation. The secure connection prevents accidental dislodgment, ensuring stable and reliable operation even in demanding server environments.

Designed for High-Performance Computing

The FCLGA3647 socket type is specifically designed for high-performance computing applications. Servers that utilize this socket type are often used for critical workloads, such as database management, virtualization, scientific simulations, and data analysis. By choosing the HPE Gold 6242 Processor with the FCLGA3647 socket, users can harness the full power of their server infrastructure for demanding computational tasks.

Support for Advanced Server Features

The FCLGA3647 socket type supports advanced server features and technologies. This includes features such as error-correcting code (ECC) memory support, which enhances data integrity in server environments, and virtualization technologies like Intel Virtualization Technology (VT), which optimize hardware support for virtual machines. By utilizing a processor with the FCLGA3647 socket type, users can take full advantage of these advanced server capabilities.

Manufacturing Technology: 14NM

The HPE Gold 6242 Processor is manufactured using the advanced 14nm process technology. The manufacturing technology refers to the size of transistors and other components on the processor die. A smaller manufacturing technology offers several advantages in terms of performance, power efficiency, and thermal management.

Improved Performance per Watt

A processor manufactured using the 14nm process technology provides improved performance per watt compared to larger manufacturing nodes. The smaller transistors and circuits allow for higher transistor density, enabling more computational power within a smaller area. This results in improved energy efficiency, as the processor can deliver higher performance levels while consuming less power. The HPE Gold 6242 Processor's 14nm manufacturing technology ensures optimal performance without sacrificing energy efficiency.

Enhanced Thermal Management

The 14nm manufacturing technology contributes to enhanced thermal management capabilities. Smaller transistors generate less heat compared to larger ones, reducing the overall thermal output of the processor. This allows for better heat dissipation and cooling efficiency, ensuring that the processor operates within safe temperature limits. The HPE Gold 6242 Processor's 14nm manufacturing technology helps maintain system stability and reliability by effectively managing heat dissipation.

Higher Clock Frequencies

The 14nm manufacturing technology enables processors to achieve higher clock frequencies. Clock frequency refers to the speed at which a processor executes instructions within a given time frame. By reducing the distance between transistors, circuits, and other components, the 14nm process technology minimizes delay in signal transmission, allowing for faster clock speeds. The HPE Gold 6242 Processor benefits from this smaller manufacturing node by delivering higher clock frequencies, resulting in improved overall performance.

Reduced Power Consumption

A smaller manufacturing technology leads to reduced power consumption. With the HPE Gold 6242 Processor's 14nm manufacturing technology, the processor requires less electrical power to operate efficiently. This translates to lower energy costs and reduced environmental impact. Businesses and individuals can benefit from this reduced power consumption by saving on electricity bills and contributing to sustainable computing practices.

Future-Proofing and Compatibility

Processors manufactured using advanced technologies such as 14nm are designed to meet the demands of future software and applications. As technology evolves, software developers optimize their products for the latest hardware advancements. By investing in a processor with a 14nm manufacturing technology, users can ensure compatibility with future software updates and take advantage of new features and optimizations.

Power Consumption: 150W

The HPE Gold 6242 Processor has a power consumption rating of 150W. Power consumption refers to the electrical power required by the processor to operate under typical conditions. The power consumption rating provides insights into the energy requirements and thermal characteristics of the processor.

Energy Efficiency

The 150W power consumption rating highlights the HPE Gold 6242 Processor's energy-efficient design. The processor is optimized to deliver high performance while minimizing power usage. With efficient power management, the processor can execute tasks effectively while consuming less electricity compared to less energy-efficient alternatives. This contributes to cost savings and environmentally friendly computing practices.

Thermal Management

Power consumption is closely related to thermal management. The 150W power consumption rating indicates the amount of heat generated by the processor during operation. Effective thermal management is crucial to ensure that the processor remains within safe temperature limits. The HPE Gold 6242 Processor's power consumption rating of 150W helps ensure optimal thermal dissipation and cooling efficiency, maintaining system stability and reliability.

Compatibility with Power Supply Units

Power supply units (PSUs) provide electrical power to computer components, including the processor. The HPE Gold 6242 Processor's 150W power consumption rating ensures compatibility with a wide range of PSUs available in the market. Users can select an appropriate PSU that meets the processor's power requirements, ensuring stable and reliable operation without overloading or underpowering the system.

Power Budgeting and Planning

Understanding the power consumption of a processor is crucial for power budgeting and planning. Organizations and individuals need to manage their power resources effectively to avoid overloading circuits