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HPE 827187-B21 Xeon E5-2699V4 22-Core 2.2GHz 55MB L3 Cache 9.6GT/S QPI Speed

827187-B21
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HPE Xeon E5-2699V4 22-Core 2.2GHz 55MB L3 Cache 9.6GT/S QPI Speed Socket FCLGA 2011 145W 14NM Processor 827187-B21. New (System) Pull with 6-Month Replacem
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SKU/MPN827187-B21Availability✅ In StockProcessing TimeUsually ships same day ManufacturerHPE Product/Item ConditionNew (System) Pull ServerOrbit Replacement WarrantySix-Month (180 Days)
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Description

Product Specifications

Manufacturer Details

  • Brand: HPE
  • Type: Server Processor
  • Part Number: 827187-B21
  • Model: E5-2699v4

Technical Features

Core and Speed

  • Core Count: 22-core architecture
  • Base Clock Frequency: 2.2 GHz
  • Maximum Turbo Speed: 3.6 GHz

QuickPath Interconnect Details

  • QPI Speed: 9.6 GT/s
  • Number of QPI Links: 2

Instruction Set Information

  • Instruction Set Architecture: 64-bit
  • Extensions: AVX 2.0

Cache Memory Overview

  • L3 Cache Size: 55 MB

Physical and Power Specifications

Manufacturing Process

  • Process Technology: 14nm
  • Max Thermal Design Power (TDP): 145 W

Socket Compatibility

  • Processor Socket Type: FCLGA2011

Core Count: 22

The HPE Xeon E5-2699V4 Processor is equipped with an impressive core count of 22. This feature sets it apart from other processors in its class and provides numerous benefits and advantages to users.

Increased Processing Power

With 22 cores, the processor can handle a significantly higher number of tasks simultaneously. This translates into increased processing power and improved performance for demanding applications, such as video editing, virtualization, and data analysis. Users can expect faster execution times and smoother multitasking, enabling them to accomplish more in less time.

Enhanced Parallel Computing

Parallel computing refers to the ability of a processor to execute multiple instructions simultaneously. The higher the core count, the more effectively the processor can distribute and execute these instructions in parallel. The 22 cores of the HPE Xeon E5-2699V4 Processor allow for efficient parallel computing, making it ideal for applications that require intensive calculations or simulations.

Scalability and Future-Proofing

The 22-core configuration of the processor also offers scalability and future-proofing. As software and applications continue to evolve and become more demanding, having a higher core count ensures that your system can handle future updates and advancements without requiring a complete hardware upgrade. This scalability allows users to extend the lifespan of their systems and maximize their investment.

Optimized Resource Allocation

The large number of cores in the HPE Xeon E5-2699V4 Processor enables efficient resource allocation. Each core can be assigned specific tasks, allowing for better utilization of available resources and improved overall system performance. This ensures that critical processes receive adequate processing power while less demanding tasks are efficiently handled by the remaining cores.

Improved Virtualization Performance

Virtualization technology is becoming increasingly popular in various industries, allowing users to run multiple virtual machines on a single physical server. The 22 cores of the HPE Xeon E5-2699V4 Processor provide ample resources to support virtualization, ensuring smooth and efficient operation of virtual machines. This feature is especially beneficial for businesses that rely on virtualization for cost savings and streamlined IT infrastructure.

Base Clock Speed: 2.2GHz

The HPE Xeon E5-2699V4 Processor boasts a base clock speed of 2.2GHz. This feature plays a crucial role in determining the overall performance and responsiveness of the processor.

Fast and Responsive Computing

The base clock speed represents the frequency at which the processor operates at its default settings. A higher base clock speed indicates faster processing capabilities, allowing for quick execution of tasks and improved overall system responsiveness. With a base clock speed of 2.2GHz, the HPE Xeon E5-2699V4 Processor delivers fast and responsive computing, enabling users to complete tasks efficiently.

Smooth Multitasking

Multitasking involves running multiple applications simultaneously. A higher base clock speed ensures that each application receives sufficient processing power, reducing lag and ensuring smooth multitasking. The 2.2GHz base clock speed of the HPE Xeon E5-2699V4 Processor allows users to seamlessly switch between applications and work on resource-intensive tasks without experiencing significant performance degradation.

Quick Startup and Load Times

The base clock speed also affects startup and load times for applications and operating systems. A higher base clock speed results in quicker boot times and reduced loading times for software, allowing users to get started on their work faster. Additionally, data-intensive applications that rely on frequent data access will benefit from the faster processing offered by the 2.2GHz base clock speed, ensuring smooth and efficient operation.

Power Efficiency

While a higher base clock speed typically results in improved performance, it is essential to consider power efficiency. The HPE Xeon E5-2699V4 Processor strikes a balance between performance and power consumption, ensuring optimal efficiency. By delivering high processing power at a base clock speed of 2.2GHz, the processor maximizes performance while minimizing energy consumption, contributing to overall energy savings for users.

L3 Cache: 55MB

The HPE Xeon E5-2699V4 Processor features an impressive L3 cache size of 55MB. The L3 cache plays a vital role in enhancing the processor's performance and efficiency.

Faster Data Access

The L3 cache acts as a temporary storage space for frequently accessed data. With a larger cache size of 55MB, the processor can store more data closer to the cores, reducing the time it takes to access critical information. This results in faster data retrieval and improved overall system performance, especially for applications that rely heavily on data access, such as databases and content creation software.

Reduced Memory Latency

Memory latency refers to the time it takes for the processor to access data from the system memory. A larger L3 cache helps reduce memory latency by storing frequently accessed data closer to the cores. This reduces the need to fetch data from the slower system memory, resulting in faster data processing and improved responsiveness. Users can expect reduced lag and smoother operation when working with memory-intensive applications.

Improved Instruction Execution

The L3 cache also plays a crucial role in improving instruction execution. As instructions are fetched from memory, they are stored in the cache for quick retrieval. With a larger cache size of 55MB, more instructions can be stored, allowing for faster execution and improved overall system performance. This is particularly beneficial for applications that require intensive calculations or simulations, as it allows for quicker execution and more efficient processing.

Enhanced Gaming Experience

Gamers can also benefit from the larger L3 cache size of the HPE Xeon E5-2699V4 Processor. The cache helps reduce loading times and provides faster access to game data, resulting in smoother gameplay and reduced lag. Gamers can enjoy a more immersive gaming experience without experiencing significant performance issues or delays.

QPI Speed: 9.6GT/S

The QPI (QuickPath Interconnect) speed of the HPE Xeon E5-2699V4 Processor is an essential feature that impacts the communication and data transfer capabilities of the processor.

High-Speed Data Transfer

The QPI speed determines how quickly data can be transferred between the processor and other system components, such as memory and peripherals. With a QPI speed of 9.6GT/s, the HPE Xeon E5-2699V4 Processor offers high-speed data transfer capabilities, ensuring efficient communication between different parts of the system. This allows for fast data access and retrieval, resulting in improved overall system performance.

Improved System Responsiveness

A higher QPI speed contributes to improved system responsiveness by reducing communication latency. The faster data transfer rate enables quick exchange of information between the processor and other system components, minimizing delays and ensuring smooth operation. This is especially important for applications that rely on real-time data processing or require fast response times, such as gaming or multimedia editing.

Enhanced Scalability

The high QPI speed of the HPE Xeon E5-2699V4 Processor also enhances scalability by providing ample bandwidth for expanding system resources. As businesses and users require additional processing power, memory, or peripherals, the high-speed QPI ensures that the processor can efficiently handle the increased data transfer demands. This scalability allows users to expand their system's capabilities without compromising performance.

Optimized Workstation Performance

Workstations that require high-performance computing rely on efficient communication between the processor and other components. The 9.6GT/s QPI speed of the HPE Xeon E5-2699V4 Processor ensures that workstations can efficiently handle complex tasks, such as rendering, modeling, and simulation. The optimized communication enables faster data transfer and improved overall workstation performance, allowing users to complete their work more efficiently.

Socket Type: FCLGA 2011

The HPE Xeon E5-2699V4 Processor features a Socket Type of FCLGA 2011. The socket type is an essential consideration when selecting compatible motherboards for the processor.

Compatibility and Upgradability

The FCLGA 2011 socket type ensures compatibility with motherboards designed for this specific socket. This allows users to select from a wide range of compatible motherboards when building or upgrading their systems. The socket type also ensures future upgradability, as users can replace the processor with a newer model without needing to change the motherboard.

Robust and Secure Socket Design

The FCLGA 2011 socket design offers robustness and secure connectivity between the processor and motherboard. The Land Grid Array (LGA) design features an array of connector pins on the motherboard that interface with pads on the underside of the processor. This design provides a secure connection and prevents damage during installation or removal of the processor.

Ease of Installation

The FCLGA 2011 socket type facilitates easy installation of the HPE Xeon E5-2699V4 Processor. The LGA design eliminates the need for complex mechanisms like pins or clips, simplifying the installation process. Users can easily align the processor with the socket and secure it in place with minimal effort, ensuring a hassle-free installation experience.

Stability and Reliability

The FCLGA 2011 socket type offers stability and reliability. The robust connection between the processor and motherboard ensures consistent electrical contact and minimizes the risk of connectivity issues or data loss. This results in a stable system that can handle demanding tasks without compromising performance or reliability.

Power Consumption: 145W

The power consumption of the HPE Xeon E5-2699V4 Processor is an important consideration for users concerned about energy efficiency and operating costs.

Energy Efficiency

With a power consumption of 145W, the HPE Xeon E5-2699V4 Processor strikes a balance between performance and energy efficiency. The processor delivers high processing power while minimizing energy consumption, ensuring optimal performance per watt. This is particularly important for users who require powerful systems but want to minimize their environmental impact and reduce electricity bills.

Cooling Requirements

The power consumption of a processor affects the cooling requirements of the system. Higher power consumption generates more heat, necessitating efficient cooling solutions to maintain optimal operating temperatures. The 145W power consumption of the HPE Xeon E5-2699V4 Processor requires adequate cooling to prevent overheating and ensure stable operation. Users should consider appropriate cooling solutions, such as high-performance CPU coolers or liquid cooling systems, to maintain optimal temperatures.

Long-Term Cost Savings

While high-performance processors may have higher power consumption, they can still offer long-term cost savings. The HPE Xeon E5-2699V4 Processor's efficient power consumption ensures that energy costs remain manageable, even with heavy usage. Additionally, the processor's scalability and future-proofing allow users to extend the lifespan of their systems, reducing the need for frequent upgrades and associated costs.

Environmental Impact

Minimizing energy consumption helps reduce the environmental impact of computing systems. By opting for a processor with a power consumption of 145W, users contribute to energy conservation and reduce their carbon footprint. This is particularly important as organizations and individuals increasingly prioritize sustainability and environmental responsibility.

Manufacturing Technology: 14NM

The HPE Xeon E5-2699V4 Processor utilizes a 14nm manufacturing technology, which plays a crucial role in determining its performance, power efficiency, and overall capabilities.

Improved Performance

The 14nm manufacturing technology allows for smaller transistors and increased transistor density on the processor die. This results in improved performance as more transistors can be accommodated within the same physical space. The smaller transistors also offer shorter electrical pathways, reducing latency and improving overall data transfer speeds. Users can expect faster processing, enhanced multitasking capabilities, and improved system responsiveness.

Power Efficiency

The 14nm manufacturing technology contributes to power efficiency by reducing power leakage and improving energy utilization. Smaller transistors require less energy to switch on or off, resulting in lower power consumption. The improved power efficiency ensures that the HPE Xeon E5-2699V4 Processor delivers high performance while minimizing energy consumption and heat generation. Users can benefit from powerful processing capabilities without compromising on energy efficiency.

Thermal Management

The smaller transistor size enabled by the 14nm manufacturing technology also improves thermal management. Smaller transistors generate less heat during operation, allowing for better heat dissipation and temperature control. This results in cooler and more stable system operation, reducing the risk of overheating and thermal throttling. Users can enjoy long periods of high-performance computing without experiencing significant performance degradation due to excessive heat.

Future-Proofing

The 14nm manufacturing technology ensures that the HPE Xeon E5-2699V4 Processor is built to meet the demands of future software and applications. As technology evolves, smaller transistor sizes become increasingly important for accommodating more advanced features and functionalities. By opting for a processor with a 14nm manufacturing technology, users can future-proof their systems and ensure compatibility with upcoming software updates or hardware advancements.

Part Number: 827187-B21

The part number, 827187-B21, refers to the unique identifier for the HPE Xeon E5-2699V4 Processor. While it may not directly impact the performance or functionality of the processor, it serves several important purposes for users.

Identification and Compatibility

The part number allows users to accurately identify and confirm that they are purchasing or using the correct processor model. It ensures compatibility with specific systems or motherboards and eliminates any confusion that may arise from similar product names or specifications. Users can refer to the part number when seeking support or purchasing additional components to ensure that they obtain the correct product.

Warranty and Support

The part number is also necessary when registering the product for warranty or seeking support from the manufacturer. It serves as a unique identifier that allows manufacturers to track product information, including production date, batch number, and specific features. This information is essential for warranty claims or troubleshooting, ensuring that users receive appropriate assistance and support for their specific product variant.

Documentation and Documentation Retrieval

The part number is often referenced in documentation and technical resources related to the processor. Users can easily locate relevant manuals, datasheets, or software updates by using the part number as a search parameter. This simplifies the process of finding essential information and ensures that users have access to the most up-to-date resources for their specific processor variant.

Product Differentiation

In a market with numerous processor models and configurations, the part number serves as a means of product differentiation. By using unique part numbers, manufacturers can clearly distinguish between different processor variants and specifications. This allows users to make informed decisions based on their specific requirements and ensures that they select the appropriate processor model for their intended use.

In conclusion, the HPE Xeon E5-2699V4 Processor offers impressive features that cater to the needs of demanding users. With its 22-core count, 2.2GHz base clock speed, 55MB L3 cache, 9.6GT/s QPI speed, FCLGA 2011 socket type, 145W power consumption, 14nm manufacturing technology, and part number 827187-B21, this processor delivers exceptional performance, scalability, and efficiency. Whether users require high processing power for complex applications or seek energy-efficient solutions for long-term cost savings, the HPE Xeon E5-2699V4 Processor is a reliable choice.

Features
Product/Item Condition:
New (System) Pull
ServerOrbit Replacement Warranty:
Six-Month (180 Days)