HPE 819852-B21 Intel Xeon E5-2690V4 14-Core 2.6GHz Processor Kit

Core Count: 14

The HPE Intel Xeon E5-2690V4 Processor is equipped with an impressive core count of 14. This feature is of utmost importance for users who require powerful computing capabilities, especially in demanding applications such as data analysis, scientific simulations, and virtualization.

Enhanced Multitasking

With 14 cores, this processor enables efficient multitasking by allowing multiple tasks to be executed simultaneously. Users can run complex software programs, handle large datasets, and perform resource-intensive calculations without experiencing significant performance degradation.

Improved Parallel Processing

The increased number of cores also enhances parallel processing, which is crucial for tasks that can be divided into smaller sub-tasks and executed simultaneously. This feature significantly improves the overall performance and execution speed of such tasks, resulting in quicker results and improved productivity.

Optimized Virtualization

For users involved in virtualization environments, the 14-core configuration enables efficient allocation of resources to virtual machines. This allows for better utilization of server capacity and the ability to run multiple virtual instances simultaneously without performance bottlenecks.

Base Clock Speed: 2.6GHz

The HPE Intel Xeon E5-2690V4 Processor has a base clock speed of 2.6GHz. This feature plays a crucial role in determining the overall performance and responsiveness of the processor.

Faster Single-Threaded Performance

A higher base clock speed translates to faster single-threaded performance. This is particularly important for applications that heavily rely on single-threaded operations, such as gaming, certain productivity software, and legacy applications that are not optimized for multi-core processors. The 2.6GHz base clock speed ensures smooth and responsive performance in such scenarios.

Snappier System Responsiveness

The higher base clock speed also contributes to a snappier system responsiveness. Tasks like opening applications, launching files, and navigating through the operating system interface are noticeably faster with a faster base clock speed. Users will experience reduced lag and improved overall system usability.

Efficient Multi-Core Performance

While a higher base clock speed is beneficial for single-threaded tasks, it also enhances the performance of multi-threaded applications. The 2.6GHz base clock speed provides a solid foundation for all cores, allowing them to operate at higher frequencies when needed. This results in improved multi-core performance and faster execution of parallel tasks.

L3 Cache: 35MB

The HPE Intel Xeon E5-2690V4 Processor is equipped with an L3 cache of 35MB. The L3 cache is an important component in a processor's memory hierarchy and plays a vital role in improving overall system performance.

Reduced Memory Latency

A larger L3 cache helps reduce memory latency by storing frequently accessed data closer to the processor cores. This reduces the time required to fetch data from the main memory, resulting in faster data retrieval and improved overall system responsiveness. Tasks that heavily rely on memory access, such as database operations and content creation software, benefit greatly from a larger L3 cache.

Improved Instruction Execution

The larger L3 cache also enhances instruction execution by providing a larger pool of instructions readily available to the processor cores. This reduces the chances of instruction cache misses and improves the efficiency of instruction fetching and execution. As a result, applications that require frequent instruction access, such as video editing software and complex simulations, experience improved performance.

Enhanced Multi-Core Scaling

A larger L3 cache facilitates better multi-core scaling by allowing each core to access a larger shared pool of data. This is particularly beneficial for tasks that involve significant data sharing between cores, such as scientific simulations and parallel processing. The 35MB L3 cache ensures efficient data sharing and improves overall multi-core performance.

QPI Speed: 9.6GT/s

The HPE Intel Xeon E5-2690V4 Processor features a QuickPath Interconnect (QPI) speed of 9.6GT/s. QPI is a high-speed point-to-point interconnect technology that enables fast communication between the processor and other components, such as memory and I/O devices.

Improved Memory Bandwidth

A higher QPI speed translates to improved memory bandwidth, allowing for faster data transfer between the processor and memory modules. This results in reduced memory access latency and faster overall system performance. Applications that heavily rely on memory bandwidth, such as high-performance databases and data-intensive simulations, benefit greatly from a higher QPI speed.

Enhanced I/O Performance

The high QPI speed also enhances I/O performance by facilitating faster communication between the processor and I/O devices, such as storage drives and network adapters. This ensures quicker data transfer rates, reduced I/O latency, and improved overall system responsiveness. Users working with large files, accessing remote resources, or performing data-intensive network operations experience significant performance improvements.

Optimized Scalability

A higher QPI speed enables improved scalability by providing faster interconnects between multiple processors in a multi-socket configuration. This allows for efficient communication and data sharing between processors, resulting in enhanced parallel processing capabilities. Users involved in high-performance computing, server virtualization, and distributed computing benefit from the optimized scalability provided by the 9.6GT/s QPI speed.

Socket Type: FCLGA 2011

The HPE Intel Xeon E5-2690V4 Processor utilizes the FCLGA 2011 socket type. The socket type determines the physical interface between the processor and the motherboard, ensuring compatibility and proper communication between the two components.

Widespread Compatibility

The FCLGA 2011 socket type is widely supported by various server and workstation motherboards. This ensures users have a wide range of compatible options to choose from when building or upgrading their systems. The socket's popularity also ensures a robust ecosystem of compatible accessories, including coolers and heatsinks, making it easier for users to find suitable components.

Future-Proofing

The FCLGA 2011 socket type offers a certain level of future-proofing. Users can invest in a compatible motherboard now and have the flexibility to upgrade to newer processors without having to replace the entire system. This provides a cost-effective solution for users who anticipate the need for more powerful processors in the future.

Server-Class Performance

The FCLGA 2011 socket type is primarily designed for server-class performance. It supports high-end processors that are capable of handling demanding workloads and running resource-intensive applications. Users requiring exceptional performance and reliability for server applications can rely on the FCLGA 2011 socket type for their computing needs.

Power Consumption: 135W

The HPE Intel Xeon E5-2690V4 Processor has a power consumption rating of 135W. Power consumption is an important consideration, especially in environments where energy efficiency and cooling requirements are critical.

Energy Efficiency

The 135W power consumption rating ensures that the processor operates efficiently while providing the required performance. It strikes a balance between power consumption and computational capability, resulting in optimal energy efficiency. This is particularly important for users who prioritize energy savings and are conscious of their carbon footprint.

Reduced Cooling Requirements

A lower power consumption rating contributes to reduced cooling requirements. The processor generates less heat, requiring less cooling infrastructure to maintain optimal operating temperatures. This results in quieter systems, reduced energy consumption by cooling solutions, and potentially lower overall system costs.

Thermal Design Power (TDP) Optimization

The 135W power consumption rating directly affects the Thermal Design Power (TDP) of the processor. The lower TDP ensures that the processor operates within its thermal limits, minimizing the risk of overheating and potential performance degradation. Users can rely on the optimized TDP to ensure stable and reliable operation under heavy workloads.

Manufacturing Technology: 14NM

The HPE Intel Xeon E5-2690V4 Processor is manufactured using a 14nm process technology. The manufacturing technology refers to the size of the transistors and other components on the processor die.

Improved Performance per Watt

A smaller manufacturing technology, such as 14nm, enables improved performance per watt. This means that the processor can deliver higher performance while consuming less power compared to processors manufactured using larger technologies. Users benefit from increased computational capabilities without compromising energy efficiency or increasing power consumption.

Higher Transistor Density

The 14nm manufacturing technology allows for higher transistor density on the processor die. This results in more transistors being packed into a smaller area, enabling greater processing power and improved overall performance. Users can expect faster execution of tasks, improved multitasking capabilities, and better overall system responsiveness.

Reduced Heat Generation

A smaller manufacturing technology also contributes to reduced heat generation. The smaller transistors and components produce less heat during operation, resulting in lower cooling requirements and potentially quieter systems. Users can enjoy a cooler and more comfortable computing environment, especially in environments where cooling is a concern.

Compatible Server Model: BL460C GEN9

The HPE Intel Xeon E5-2690V4 Processor is compatible with the BL460C GEN9 server model. Compatibility between the processor and the server model ensures seamless integration and optimal performance.

Optimized Performance

The compatibility between the processor and the BL460C GEN9 server model ensures optimized performance. The server model is specifically designed to accommodate the processor's capabilities and provide the necessary infrastructure for efficient operation. Users can expect reliable and powerful performance from this combination.

Scalability and Expansion

The compatibility with the BL460C GEN9 server model allows for scalability and expansion possibilities. Users can start with a single processor configuration and upgrade to a multi-processor setup in the future, providing room for growth and increased computational power. This flexibility ensures that users can adapt their systems to meet evolving needs without major hardware changes.

Reliable Integration

The compatibility ensures reliable integration between the processor and the server model. Users can have confidence in the stability, reliability, and compatibility of their computing systems when using this combination. This is particularly important in mission-critical environments where system downtime or instability can have severe consequences.

Part Number: 819852-B21

The HPE Intel Xeon E5-2690V4 Processor has a part number of 819852-B21. The part number serves as a unique identifier for the specific processor model and can be used for easy identification and procurement.

Accurate Identification

The part number ensures accurate identification of the processor model when ordering or searching for compatible components. Users can simply provide the part number to vendors or use it as a reference to ensure they are acquiring the correct processor model for their systems. This eliminates confusion and reduces the risk of compatibility issues.

Streamlined Procurement

The part number facilitates streamlined procurement processes. Users can easily search for the part number online or provide it to vendors, streamlining the ordering process and reducing the time required to acquire the desired processor model. This ensures efficient procurement and minimizes potential delays.

Compatibility Verification

The part number also aids in compatibility verification. Users can cross-reference the part number with manufacturer specifications or compatibility lists to ensure that the processor is compatible with their existing systems or desired server models. This verification step mitigates the risk of purchasing incompatible components and saves time and effort in the long run.