HPE 841035-001 Intel Xeon E5-2697AV4 16-Core 2.6GHz 40MB L3 Cache Processor

Cores

The HPE Xeon E5-2697AV4 Processor is equipped with 16 cores, making it a powerful choice for users in need of high-performance computing. These cores are responsible for executing instructions and performing calculations, allowing the processor to handle multiple tasks simultaneously.

Improved Multitasking

With 16 cores, the HPE Xeon E5-2697AV4 Processor can handle a wide range of tasks without experiencing slowdowns or delays. This is particularly beneficial for users who work with resource-intensive applications such as video editing software, 3D rendering programs, or scientific simulations. The increased number of cores ensures that each task receives dedicated processing power, resulting in faster and more efficient performance.

Enhanced Parallel Processing

Parallel processing is a technique where multiple tasks are divided into smaller sub-tasks and executed simultaneously across multiple cores. The 16 cores of the HPE Xeon E5-2697AV4 Processor enable efficient parallel processing, allowing users to complete complex computations and data analysis tasks in less time. This is especially advantageous for industries such as finance, research, and engineering that rely heavily on data crunching and analysis.

Seamless Virtualization

Virtualization is a technology that enables the creation and management of multiple virtual machines on a single physical server. With 16 cores, the HPE Xeon E5-2697AV4 Processor can support a larger number of virtual machines, allowing businesses to consolidate their IT infrastructure and reduce hardware costs. Additionally, the increased core count ensures that each virtual machine receives sufficient processing power, resulting in smooth and responsive performance.

Base Clock Speed

The HPE Xeon E5-2697AV4 Processor has a base clock speed of 2.6GHz, which determines the frequency at which the processor operates under normal conditions. This feature plays a crucial role in defining the overall performance and responsiveness of the processor.

Efficient Task Execution

A higher base clock speed allows the HPE Xeon E5-2697AV4 Processor to execute instructions and complete tasks at a faster rate. This is particularly beneficial for tasks that require quick response times, such as gaming, real-time simulations, and multimedia editing. The 2.6GHz base clock speed ensures that these tasks are carried out swiftly and without any noticeable lag.

Smooth System Operation

The base clock speed also affects the overall system performance and responsiveness. A higher clock speed allows the processor to process instructions more rapidly, resulting in a smoother user experience when navigating through applications, multitasking, or performing everyday computing tasks. Users will notice improved system responsiveness and reduced waiting times when launching applications or accessing files.

Boosting Resource-Intensive Applications

Resource-intensive applications, such as video editing software or 3D modeling tools, require significant processing power to handle complex calculations and render graphics. The 2.6GHz base clock speed of the HPE Xeon E5-2697AV4 Processor ensures that these applications can run smoothly and efficiently, reducing rendering times and enabling users to work with large files without slowdowns or performance issues.

L3 Cache

The HPE Xeon E5-2697AV4 Processor features a generous 40MB L3 cache, which serves as a high-speed memory buffer between the processor cores and the main memory. The L3 cache plays a crucial role in improving overall performance and reducing latency.

Faster Data Access

The large L3 cache size of 40MB allows the processor to store frequently accessed data closer to the cores, reducing the time required to retrieve information from the main memory. This results in faster data access and improved overall system performance, particularly when working with large datasets or memory-intensive applications.

Reduced Memory Latency

The L3 cache acts as a buffer between the processor and the main memory, reducing the latency associated with accessing data from the main memory. This is particularly important for applications that require real-time data processing, such as gaming or financial modeling. The 40MB L3 cache of the HPE Xeon E5-2697AV4 Processor ensures that data can be quickly accessed, resulting in reduced latency and improved application responsiveness.

Enhanced Virtual Machine Performance

Virtualization relies on efficient memory management to ensure smooth performance of virtual machines. The 40MB L3 cache enables the HPE Xeon E5-2697AV4 Processor to store frequently accessed data for each virtual machine, reducing the need for frequent memory access and improving overall virtual machine performance. This is particularly beneficial for businesses that heavily rely on virtualization to run their operations.

QPI Speed

The HPE Xeon E5-2697AV4 Processor boasts a QPI Speed of 9.6GT/s, which stands for Quick Path Interconnect. QPI is a high-speed interface that connects the processor to other system components such as memory and I/O devices.

Improved Data Transfer

The 9.6GT/s QPI Speed of the HPE Xeon E5-2697AV4 Processor enables rapid data transfer between the processor and other system components. This is particularly important for applications that involve frequent access to large amounts of data, such as database management systems or scientific simulations. The increased QPI Speed ensures that data can be transferred swiftly, reducing bottlenecks and enhancing overall system performance.

Efficient System Scalability

QPI Speed also plays a crucial role in system scalability, as it determines the bandwidth available for communication between multiple processors in a multi-socket configuration. The 9.6GT/s QPI Speed of the HPE Xeon E5-2697AV4 Processor allows for efficient scaling of performance by enabling high-speed data exchange between multiple processors. This is particularly beneficial for businesses that require high-performance computing and need to scale their systems to handle demanding workloads.

Enhanced I/O Performance

The QPI Speed also affects the performance of I/O devices connected to the processor. A higher QPI Speed allows for faster data transfer between the processor and peripherals such as storage devices or network cards. This results in improved I/O performance, reducing data transfer times and enhancing overall system responsiveness.

Socket Type

The HPE Xeon E5-2697AV4 Processor utilizes the FCLGA2011 socket type, which stands for Flip-Chip Land Grid Array. The socket type determines the physical interface between the processor and the motherboard, ensuring compatibility and allowing for easy installation.

Compatibility and Upgradability

The FCLGA2011 socket type ensures compatibility with motherboards that support this specific socket. This allows users to easily upgrade their existing systems by simply replacing the processor while keeping other components intact. The FCLGA2011 socket type provides flexibility and future-proofing, as it allows for potential upgrades to higher-performing processors without requiring a complete system overhaul.

Secure Connection

The Flip-Chip Land Grid Array design of the FCLGA2011 socket type provides a secure and reliable connection between the processor and the motherboard. This ensures stable performance and reduces the risk of poor contact or intermittent connectivity, which could lead to system instability or crashes. The FCLGA2011 socket type guarantees a robust and durable connection, allowing users to rely on their systems for critical tasks without worries of hardware-related issues.

Efficient Heat Dissipation

The FCLGA2011 socket type also facilitates efficient heat dissipation from the processor. The design allows for the installation of compatible cooling solutions such as heatsinks or liquid cooling systems, ensuring that the processor operates within its optimal temperature range. Effective heat dissipation is crucial for maintaining system stability and preventing thermal throttling, which can significantly impact performance. The FCLGA2011 socket type enables users to implement adequate cooling solutions to keep the processor running at peak performance.

Power

The HPE Xeon E5-2697AV4 Processor has a power consumption of 145W, which refers to the amount of electrical power it requires to operate under typical conditions. Power consumption is an important consideration for users as it impacts energy efficiency and heat generation.

Energy Efficiency

The 145W power consumption of the HPE Xeon E5-2697AV4 Processor signifies its energy efficiency. By consuming less power, the processor reduces the overall energy requirements of the system, resulting in lower electricity bills and reduced environmental impact. Energy-efficient processors are particularly important for businesses that operate large data centers or run multiple servers continuously, as they can lead to significant cost savings over time.

Heat Generation and Cooling Requirements

The power consumption directly influences the amount of heat generated by the processor during operation. The 145W power consumption of the HPE Xeon E5-2697AV4 Processor indicates that it generates a moderate amount of heat. This allows for easier heat dissipation and reduced cooling requirements compared to higher-power processors. Users can select suitable cooling solutions that match the thermal output of the processor, ensuring optimal operating temperatures and system stability.

Reliable and Stable Performance

The power consumption of the HPE Xeon E5-2697AV4 Processor is optimized to strike a balance between performance and energy efficiency. The 145W power consumption ensures that the processor receives sufficient power to deliver reliable and stable performance, without drawing excessive power that could lead to overheating or system instability. Users can rely on the HPE Xeon E5-2697AV4 Processor to handle demanding workloads while maintaining energy efficiency and system integrity.

Manufacturing Technology

The HPE Xeon E5-2697AV4 Processor is built using the 14nm manufacturing technology, which refers to the size of the transistors within the processor. The manufacturing technology impacts the processor's performance, power consumption, and heat generation.

Improved Performance per Watt

The 14nm manufacturing technology allows for the creation of smaller transistors, enabling more transistors to be packed into a given area. This results in improved performance per watt, as more transistors can perform computations simultaneously while consuming less power. The HPE Xeon E5-2697AV4 Processor benefits from this manufacturing technology by delivering higher performance compared to previous generations while maintaining energy efficiency.

Reduced Power Consumption

Smaller transistors also require less power to switch states, reducing the overall power consumption of the processor. The 14nm manufacturing technology ensures that the HPE Xeon E5-2697AV4 Processor operates efficiently, consuming less power while delivering high-performance capabilities. This is particularly important for businesses seeking to reduce their energy costs and minimize their environmental footprint.

Enhanced Thermal Management

The smaller size of transistors in the 14nm manufacturing technology allows for more efficient heat dissipation. Heat generation is directly related to transistor size, and smaller transistors produce less heat. This enables the HPE Xeon E5-2697AV4 Processor to efficiently dissipate heat, reducing the cooling requirements and ensuring stable performance even under heavy workloads. Users can rely on the processor to maintain optimal operating temperatures without compromising performance or system integrity.

Part Number

The HPE Xeon E5-2697AV4 Processor has the part number 841035-001, which serves as a unique identifier for this specific processor model. Part numbers are important for users when purchasing or replacing processors as they ensure compatibility and facilitate easy identification.

Compatibility Assurance

The part number 841035-001 guarantees compatibility with compatible motherboards and systems. When purchasing a processor, users can refer to the part number to ensure that it is compatible with their existing hardware or intended system configuration. This prevents potential compatibility issues and ensures a seamless installation process.

Easy Identification

Part numbers provide an easy and reliable way to identify specific processor models. The 841035-001 part number allows users to quickly locate and identify the HPE Xeon E5-2697AV4 Processor when comparing specifications or searching for specific features. This simplifies the purchasing process and ensures that users can easily find the exact processor they need for their specific requirements.

Technical Support

Part numbers are also useful when seeking technical support or assistance. When contacting customer support or researching online resources, providing the part number ensures that users receive accurate information and guidance tailored to their specific processor model. The 841035-001 part number enables users to access the appropriate documentation, drivers, and firmware updates, ensuring optimal performance and compatibility with their systems.