HPE P12015-001 Xeon Gold 6240 18-core 2.60GHZ 25MB Smart Cache Processor

Cores: 18

The HPE Xeon Gold 6240 Processor is equipped with an impressive 18 cores, making it an ideal choice for users who require enhanced multitasking capabilities and processing power. With a higher number of cores, this processor can handle multiple tasks simultaneously, resulting in improved performance and efficiency.

Increased Performance

Having 18 cores allows the processor to execute more instructions at the same time, leading to a significant boost in overall performance. This is especially beneficial for users who engage in resource-intensive tasks such as video editing, 3D rendering, or running advanced simulations. The increased number of cores ensures that these tasks are completed faster and with greater precision.

Efficient Multitasking

With 18 cores, the HPE Xeon Gold 6240 Processor enables seamless multitasking. Users can effortlessly run multiple applications simultaneously without experiencing a significant slowdown in performance. This is particularly advantageous for professionals who need to work with various software applications or virtual machines concurrently.

Optimized Server Workloads

In server environments where numerous clients or users access resources simultaneously, the 18 cores of this processor allow for efficient workload distribution. Each core can handle individual requests, ensuring that all users experience smooth and uninterrupted performance. This capability is crucial for businesses that rely on their servers to deliver reliable and responsive services.

Parallel Processing

The multiple cores of the HPE Xeon Gold 6240 Processor also enable parallel processing. This means that tasks can be divided into smaller parts and executed simultaneously across the cores, resulting in faster completion times and improved overall efficiency. Parallel processing is particularly advantageous for applications that can be broken down into independent tasks, such as scientific simulations or data analysis.

Base Clock Speed: 2.60GHz

The base clock speed of the HPE Xeon Gold 6240 Processor is set at 2.60GHz, providing users with a solid foundation for reliable and consistent performance. The base clock speed determines the minimum frequency at which the processor operates, ensuring that it can handle a wide range of tasks efficiently.

Stable Performance

A higher base clock speed contributes to a more stable and consistent performance across various applications. The 2.60GHz base clock speed of this processor allows it to handle demanding tasks without experiencing significant slowdowns or bottlenecks. Users can rely on this stability to ensure smooth operation and efficient completion of their workloads.

Quick Responsiveness

The 2.60GHz base clock speed enables the processor to respond quickly to user commands and input. Whether it's opening applications, loading files, or executing tasks, the higher base clock speed ensures minimal delay and a responsive computing experience. This is particularly important for users who require immediate feedback and real-time interaction with their applications.

Enhanced Single-Threaded Performance

While multiple cores provide advantages in multi-threaded workloads, a higher base clock speed benefits single-threaded applications that can only utilize a single core. With a base clock speed of 2.60GHz, the HPE Xeon Gold 6240 Processor delivers excellent performance for tasks that rely on individual core performance, such as gaming or certain productivity applications.

Boosting Capabilities

In addition to the base clock speed, this processor also features Intel Turbo Boost technology, which dynamically increases the frequency of individual cores when additional performance is required. This allows the processor to deliver even higher speeds for short periods, further enhancing overall performance and responsiveness.

Smart Cache: 25MB

The HPE Xeon Gold 6240 Processor is equipped with a generous 25MB of smart cache, providing users with fast and efficient access to frequently used data. The smart cache acts as a high-speed memory pool that stores data closer to the processor, reducing latency and improving overall performance.

Rapid Data Retrieval

With 25MB of smart cache, the processor can store a significant amount of frequently accessed data. This allows for faster retrieval times, as the processor can quickly access the required information without needing to fetch it from slower external memory sources. Users can experience improved load times and smoother operation in applications that heavily rely on data access, such as databases or content creation tools.

Reduced Memory Latency

The smart cache helps minimize memory latency by storing frequently accessed data closer to the processor. This reduces the time it takes for the processor to retrieve data from the main memory, resulting in faster overall performance. By reducing memory latency, users can achieve quicker response times and smoother multitasking capabilities.

Improved Workload Management

With 25MB of smart cache, the HPE Xeon Gold 6240 Processor can efficiently manage workloads by intelligently prioritizing data storage. Frequently accessed data is stored in the cache, while less frequently used data can be stored in slower external memory sources. This dynamic management ensures that critical data is readily available for processing, optimizing overall performance and efficiency.

Caching Algorithms

The smart cache utilizes sophisticated caching algorithms to determine which data to store in the cache based on usage patterns and access frequency. These algorithms adapt over time, learning from user behavior and optimizing cache allocation for improved performance. The intelligent caching system ensures that the most relevant data is always readily available, further enhancing the overall efficiency of the processor.

UPI Speed: 10.4GT/s

The UPI (Ultra Path Interconnect) speed of the HPE Xeon Gold 6240 Processor is an impressive 10.4GT/s, providing users with high-speed data transfer capabilities between processors and other system components. The UPI speed plays a crucial role in enabling efficient communication and coordination within a multi-processor system.

Scalability and Performance

A higher UPI speed ensures efficient communication between multiple processors in a system, allowing for seamless scalability and enhanced overall performance. Whether it's a server environment or a high-performance computing setup, the 10.4GT/s UPI speed of this processor enables efficient data exchange and coordination, resulting in improved workload distribution and faster processing times.

Optimized Workload Sharing

With a high UPI speed, multiple processors can quickly share data and tasks, ensuring balanced workload distribution across the system. This allows for efficient utilization of resources and prevents bottlenecks caused by uneven or inefficient workload allocation. Users can experience improved performance and responsiveness, especially in multi-processor setups or applications that require parallel processing.

Enhanced System Interconnectivity

The UPI speed also affects the communication between the processor and other system components, such as memory or peripheral devices. A higher UPI speed ensures fast data transfer rates, reducing latency and improving overall system responsiveness. This is particularly important in scenarios where large amounts of data need to be transferred between components, such as high-speed storage arrays or networking equipment.

Reliability and Redundancy

Multi-processor systems often incorporate redundancy to ensure uninterrupted operation in case of a failure. With a high UPI speed, redundant processors can quickly take over the workload of a failed processor, minimizing downtime and maintaining system reliability. The fast interconnectivity provided by the 10.4GT/s UPI speed ensures smooth transitions and optimal utilization of resources in these scenarios.

Socket Type: FCLGA3647

The HPE Xeon Gold 6240 Processor features the FCLGA3647 socket type, offering users compatibility with server-grade motherboards designed to support high-performance processors. The socket type plays a crucial role in ensuring proper physical and electrical connections between the processor and the motherboard.

Server-Grade Performance

The FCLGA3647 socket type is specifically designed for server environments, providing users with access to high-performance processors capable of handling demanding workloads. By using this socket type, users can build or upgrade server systems with confidence, knowing that they have access to powerful and reliable processing capabilities.

Scalability and Future-Proofing

The FCLGA3647 socket type enables system scalability and future-proofing by supporting a wide range of processors that fit into this socket. Users can start with a lower-end processor and easily upgrade to more powerful options in the future without having to replace the entire system. This flexibility allows for cost-effective expansion and ensures that the system can adapt to changing workload requirements.

Robust Physical Connection

The FCLGA3647 socket type provides a robust physical connection between the processor and the motherboard. This ensures stable electrical connectivity and minimizes the risk of data transfer errors or physical damage during operation. Users can rely on this secure connection for uninterrupted performance and peace of mind.

ECC Memory Support

The FCLGA3647 socket type is often paired with server-grade motherboards that support Error-Correcting Code (ECC) memory. ECC memory provides enhanced data integrity and error detection capabilities, ensuring that critical data is accurately stored and retrieved. The combination of the FCLGA3647 socket type and ECC memory support creates a reliable and robust computing platform suitable for mission-critical applications.

Manufacturing Technology: 14nm

The HPE Xeon Gold 6240 Processor is manufactured using a 14nm process technology, which refers to the size of the transistors on the processor's integrated circuit. The manufacturing technology plays a crucial role in determining the processor's power efficiency, performance, and overall capabilities.

Power Efficiency

A smaller manufacturing technology, such as 14nm, allows for more transistors to be packed onto the processor's die. This increased transistor density enables better power efficiency, as smaller transistors require less power to switch on and off. The 14nm manufacturing technology used in this processor helps minimize power consumption, reducing energy costs for users.

Improved Performance

The 14nm manufacturing process enables the creation of smaller and more efficient transistors, which in turn leads to improved processor performance. Smaller transistors allow for faster switching speeds, resulting in overall faster processing times and improved computational capabilities. Users can benefit from enhanced performance when running demanding applications or engaging in resource-intensive tasks.

Heat Dissipation

The smaller size of transistors in a 14nm manufacturing process also contributes to better heat dissipation. With smaller transistors, heat generated during operation can be dissipated more effectively, preventing overheating issues and maintaining system stability. This is particularly important in environments where cooling can be a challenge, such as compact server racks or high-density computing setups.

Advanced Transistor Technologies

Manufacturing technology advancements, such as the 14nm process, often incorporate advanced transistor technologies. These technologies, such as FinFET (Fin Field-Effect Transistor), further enhance power efficiency and performance by reducing leakage current and improving transistor control. The combination of the 14nm manufacturing process and advanced transistor technologies ensures that users can benefit from cutting-edge capabilities and efficiency.

Power Consumption: 150W

The HPE Xeon Gold 6240 Processor has a power consumption rating of 150W, which represents the amount of electrical power the processor requires to operate efficiently. Managing power consumption is essential for users to optimize energy efficiency and reduce operational costs.

Energy Efficiency

With a power consumption of 150W, this processor strikes a balance between performance and energy efficiency. It ensures that the processor can handle demanding workloads while minimizing power waste. Users can benefit from reduced energy costs, especially in scenarios where multiple processors are utilized in server environments that require continuous operation.

Cooling Requirements

A higher power consumption rating necessitates adequate cooling measures to maintain optimal operating temperatures. By understanding the power consumption of the HPE Xeon Gold 6240 Processor, users can ensure appropriate cooling solutions are in place to prevent overheating and maintain system stability. This is particularly important in environments where heat dissipation can be challenging, such as densely packed server racks.

Performance vs. Power Trade-off

Power consumption is often directly proportional to performance – higher performance typically corresponds to higher power consumption. By having a power consumption rating of 150W, this processor delivers a balance between performance and power efficiency. Users can optimize their computing experience by achieving the desired level of performance while managing power consumption effectively.

Power Management Features

Modern processors, including the HPE Xeon Gold 6240 Processor, incorporate power management features that allow users to control and optimize power consumption further. These features include dynamic frequency scaling and idle state management, which adjust the processor's performance and power usage based on workload demands. By leveraging these features, users can fine-tune power consumption based on their specific requirements and achieve optimal energy efficiency.

Part Number: P12015-001

The HPE Xeon Gold 6240 Processor is identified by the part number P12015-001. Part numbers play a crucial role in identifying and differentiating specific products within a product line. They help users ensure that they are selecting the correct processor for their desired configuration or upgrade.

Accurate Product Identification

The part number P12015-001 ensures accurate identification of the HPE Xeon Gold 6240 Processor. When researching or purchasing processors, users can rely on the part number to verify that they are selecting or receiving the correct product. This eliminates confusion and ensures compatibility with existing systems or components.

Compatibility Assurance

Part numbers also help users ensure compatibility with other system components or accessories. By matching the part number of the processor with compatible motherboards or other hardware, users can avoid compatibility issues and ensure smooth integration within their systems. This is particularly important in server environments where component compatibility is critical for optimal performance and stability.

Product Documentation and Support

The part number serves as an essential reference for accessing product documentation and support resources. Users can refer to the part number when seeking technical specifications, user manuals, or firmware updates specific to the HPE Xeon Gold 6240 Processor. This streamlined access to information facilitates efficient troubleshooting and system maintenance.

Product Differentiation

Part numbers also enable differentiation between similar products within a product line. For example, the HPE Xeon Gold processor family consists of various models, each offering different specifications and performance levels. The part number P12015-001 ensures that users can accurately identify and select the specific HPE Xeon Gold 6240 Processor model that meets their requirements.