Dell WYKGX Intel Xeon E5-2690V4 14-Core 2.6GHz Processor

Dell E5-2690v4 14-Core Server Processor Overview

Product Information

• Product Type: Server Processor
• Manufacturer: Dell
• Part Number: WYKGX
• Model: E5-2690v4

Core Specifications

Core Configuration and Performance

• Processor Core Count: 14 cores for enhanced multitasking
• Base Clock Speed: 2.6 GHz for efficient performance under standard loads
• Max Turbo Frequency: 3.5 GHz to boost processing power for high-demand applications

QuickPath Interconnect (QPI)

• QPI Speed: 9.6 GT/s, allowing for rapid data transfer rates
• QPI Links: 2 links to support efficient processor communication

Instruction Set Architecture

• Instruction Set: 64-bit for compatibility with modern applications
• Instruction Set Extensions: AVX 2.0 to enhance performance in multimedia and floating-point tasks

Cache and Memory Performance

L3 Cache

• Cache Capacity: 35 MB L3 cache for faster data access and lower latency
• Optimized for handling large data sets and improving server responsiveness

Process and Power Efficiency

Manufacturing Process

• Technology: 14nm lithography for a more power-efficient design
• Enables improved power management and reduced heat generation

Thermal Design Power (TDP)

• Maximum TDP: 35W to ensure optimal performance with minimized energy consumption
• Suited for data centers focused on energy efficiency

Socket Compatibility

• Compatible Socket: FCLGA2011, providing reliable compatibility with selected server motherboards

Core Count: 14

The core count of a processor is one of the most important specifications to consider when choosing a CPU for your system. In the case of the Dell Intel Xeon E5-2690V4 Processor, it features an impressive core count of 14. This means that the processor has 14 independent processing units, or cores, that can handle multiple tasks simultaneously.

Improved Multitasking

With 14 cores, this processor is capable of handling a significant number of tasks at once. Whether you're running resource-intensive applications, virtual machines, or performing complex calculations, the increased core count allows for improved multitasking capabilities. This is especially beneficial for professionals in fields such as video editing, 3D rendering, and scientific research, where the ability to process multiple tasks concurrently is essential.

Enhanced Performance

The higher core count translates to enhanced performance in both single-threaded and multi-threaded applications. Multi-threaded applications are designed to take advantage of multiple cores, allowing for faster data processing and improved overall system performance. Additionally, even single-threaded applications can benefit from the additional cores as certain background processes can be offloaded to separate cores, reducing the strain on the primary core and resulting in smoother operation.

Efficient Resource Allocation

Having more cores not only improves overall performance but also enables efficient resource allocation. Each core can be assigned specific tasks, ensuring optimal utilization of system resources. This allows for better load balancing and prevents bottlenecks, resulting in a more responsive and efficient computing experience.

Base Clock Speed: 2.6GHz

The base clock speed is another crucial factor to consider when evaluating a processor's performance. In the case of the Dell Intel Xeon E5-2690V4 Processor, it boasts a base clock speed of 2.6GHz. This refers to the speed at which the processor's cores operate without any turbo boost or overclocking.

Responsive Performance

A higher base clock speed indicates that the processor's cores can execute instructions at a faster rate. This leads to improved responsiveness in everyday tasks such as web browsing, document editing, and multimedia playback. The 2.6GHz base clock speed of this processor ensures that your system can handle these tasks with ease, providing a smooth and seamless user experience.

Efficient Single-Threaded Performance

Certain applications, such as games and some productivity software, rely heavily on single-threaded performance. The base clock speed plays a crucial role in determining the performance of these applications. With a base clock speed of 2.6GHz, this processor excels in delivering efficient single-threaded performance, ensuring that your favorite games run smoothly and demanding applications respond quickly.

Consistent Performance

The base clock speed provides a reliable baseline for performance. It ensures that even during extended periods of heavy workload or when turbo boost is not active, the processor maintains a consistent level of performance. This is particularly important for tasks that require sustained processing power, such as video rendering or scientific simulations.

Cache Size: 35MB L3

The cache size of a processor refers to the amount of onboard memory available for storing frequently accessed data. In the case of the Dell Intel Xeon E5-2690V4 Processor, it boasts a generous cache size of 35MB L3 (Level 3) cache.

Improved Data Access

The larger cache size allows for faster data access, reducing the time it takes for the processor to retrieve frequently used data from memory. This results in improved overall system performance, as the processor can quickly access and process data without relying heavily on slower main memory. Whether you're working with large datasets or running memory-intensive applications, the 35MB L3 cache ensures efficient data access and manipulation.

Reduced Memory Latency

By storing frequently accessed data closer to the processor cores, the larger cache size helps reduce memory latency. Memory latency refers to the time it takes for the processor to retrieve data from the main memory. With a larger cache, the processor can access data more quickly, minimizing delays and improving overall system responsiveness.

Enhanced Multitasking Performance

The generous cache size proves particularly beneficial in multitasking scenarios. As different tasks require access to different sets of data, a larger cache allows for simultaneous access to multiple datasets, reducing the need to constantly fetch data from main memory. This enhances multitasking performance by minimizing data bottlenecks and ensuring smooth operation even when running multiple resource-intensive applications simultaneously.

QPI Speed: 9.6GT/s

The QPI (Quick Path Interconnect) speed of a processor refers to the speed at which it communicates with other components in the system, such as memory and peripherals. In the case of the Dell Intel Xeon E5-2690V4 Processor, it boasts an impressive QPI speed of 9.6GT/s (Gigatransfers per second).

High-Speed Data Transfer

A faster QPI speed allows for high-speed data transfer between the processor and other components, resulting in improved overall system performance. Whether you're transferring large files, accessing data from memory, or communicating with peripheral devices, such as graphics cards or storage drives, the 9.6GT/s QPI speed ensures efficient and timely data transfer.

Optimized System Architecture

The high QPI speed contributes to an optimized system architecture, as it enables faster and more efficient communication between components. This is particularly important in high-performance computing environments, where data must flow seamlessly between processors, memory, and other peripherals. The 9.6GT/s QPI speed ensures that the system's architecture can keep up with demanding workloads, resulting in improved overall performance.

Enhanced Scalability

The fast QPI speed also plays a crucial role in system scalability. By enabling efficient communication between multiple processors, it allows for seamless integration of additional CPUs to scale up system performance. This is especially beneficial in server environments or other scenarios where increased computing power is required. The 9.6GT/s QPI speed ensures that the processor can effectively communicate with other components, maximizing scalability and providing ample room for future expansion.

Socket Type: FCLGA2011

The socket type of a processor refers to the physical interface between the processor and the motherboard. In the case of the Dell Intel Xeon E5-2690V4 Processor, it utilizes the FCLGA2011 socket type.

Broad Compatibility

The FCLGA2011 socket type enjoys broad compatibility with various server and workstation motherboards. This ensures that the Dell Intel Xeon E5-2690V4 Processor can be easily integrated into a wide range of systems without compatibility issues. Whether you're upgrading an existing server or building a new workstation, the FCLGA2011 socket type ensures that this processor can be seamlessly installed, providing reliable and efficient performance.

Scalability and Future Upgradability

The FCLGA2011 socket type also allows for scalability and future upgradability. Since it is compatible with a range of processors, you have the flexibility to upgrade to a higher-performing CPU in the future without having to replace the entire motherboard. This ensures that your system can keep up with evolving technology and demands, providing long-term value and cost-effectiveness.

Robust Socket Design

The FCLGA2011 socket type features a robust design that ensures secure and reliable connectivity between the processor and the motherboard. This helps prevent issues such as poor contact or overheating, ensuring stable operation even under heavy workloads. The robust socket design contributes to the overall reliability and longevity of your system, reducing the risk of downtime or hardware failure.

Power Consumption: 135W

Power consumption is an important consideration when choosing a processor, as it directly affects both energy efficiency and system cooling requirements. The Dell Intel Xeon E5-2690V4 Processor has a power consumption rating of 135W.

Energy Efficiency

With a power consumption of 135W, this processor strikes a balance between performance and energy efficiency. It ensures that your system operates efficiently without excessive power usage, resulting in reduced electricity costs and a smaller carbon footprint. Whether you're running a server farm or a personal workstation, the energy-efficient design of this processor helps minimize environmental impact while delivering excellent performance.

Cooling Efficiency

The power consumption rating also has implications for system cooling requirements. A higher power consumption typically generates more heat, requiring robust cooling solutions to maintain optimal operating temperatures. The 135W power consumption of this processor allows for efficient cooling with appropriate cooling systems, ensuring stable operation even under heavy workloads or in environments with limited airflow.

Longer Lifespan

Efficient power consumption not only reduces energy costs but also contributes to the longevity of your system. By minimizing heat generation, the processor can operate within its specified thermal limits, reducing the risk of thermal degradation or premature component failure. The 135W power consumption ensures that the processor runs cool and stable, maximizing its lifespan and providing reliable performance for years to come.

Manufacturing Technology: 14NM

The manufacturing technology of a processor refers to the size of the transistors and other components on the chip. In the case of the Dell Intel Xeon E5-2690V4 Processor, it is built using a 14nm (nanometer) manufacturing process.

Improved Performance per Watt

The 14nm manufacturing technology allows for the creation of smaller and more power-efficient transistors. This results in improved performance per watt, meaning that the processor can deliver more computational power while consuming less energy. The efficient design of this processor ensures optimal energy utilization and minimizes wasted power, translating into better overall performance and energy efficiency.

Higher Integration Density

The smaller transistor size made possible by the 14nm manufacturing technology allows for higher integration density on the processor chip. This means that more transistors and other components can be packed onto the same physical area, resulting in increased processing power and capabilities. The higher integration density enables advanced features, improved multitasking, and better overall system performance.

Reduced Heat Dissipation

Smaller transistors also generate less heat compared to larger ones. The 14nm manufacturing technology helps reduce heat dissipation, allowing for efficient cooling and stable operation even under demanding workloads. The reduced heat generation contributes to the longevity of your system by minimizing thermal stress on components, ensuring reliable performance over extended periods of use.

Part Number: WYKGX

The part number of a processor serves as a unique identifier for that specific model. In the case of the Dell Intel Xeon E5-2690V4 Processor, its part number is WYKGX.

Easy Identification

The part number WYKGX allows for easy identification of the processor model. When purchasing or researching components, the part number serves as a quick reference to ensure that you are selecting the correct model. This helps prevent compatibility issues and ensures that you are getting the exact processor model that meets your requirements.

Warranty and Support

The part number is also useful when it comes to warranty and support. By providing the part number, you can easily communicate with the manufacturer or retailer regarding any technical issues, warranty claims, or general support inquiries. The unique part number ensures accurate and efficient communication, facilitating prompt resolution of any concerns or questions you may have.

Documentation and Specifications

The part number WYKGX serves as a key reference for accessing documentation and specifications related to the processor. Whether you need to download drivers, refer to technical specifications, or access user manuals, providing the part number ensures that you have access to the appropriate resources. This allows for better understanding of the processor's capabilities and features, enabling you to make informed decisions about system integration and optimization.