Intel Xeon E5-2690V4 14-Core 2.6GHz 35MB L3 Cache 9.6GT/S QPI Speed Socket FCLGA2011 135W 14NM Processor CM8066002030908
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CM8066002030908 | Six-Month (180 Days) | Contact us for a price | Factory-Sealed New in Original Box (FSB) | |
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Product Specifications
General Information
- Processor Type: Server CPU
- Manufacturer: Intel Corporation
- Model Number: E5-2690v4
- Intel Part Code: CM8066002030908
Processor Details
- Core Count: 14 cores
- Base Clock Speed: 2.6 GHz
- Max Turbo Boost: 3.5 GHz
- QPI Speed: 9.6 GT/s
- Number of QPI Links: 2
- Supported Instruction Set: 64-bit
- Instruction Set Extensions: AVX 2.0
Cache and Performance Features
- L3 Cache Size: 35 MB
- Process Technology: 14 nm
- Max TDP (Thermal Design Power): 35W
Compatibility & Socket
Socket Type
- Compatible Socket: FCLGA2011
Processor Performance and Efficiency
High-Performance Architecture
- Advanced multi-core processing for demanding workloads
- Turbo frequency boosts up to 3.5 GHz for dynamic performance
- Energy-efficient design with a low 35W TDP
Enhanced Data Handling
- Supports up to 35MB L3 cache for rapid data retrieval
- Quickpath Interconnect (QPI) technology ensures fast inter-core communication at speeds up to 9.6 GT/s
Instruction Set & Extensions
- Utilizes AVX 2.0 for optimized performance in computing-heavy applications
- 64-bit architecture enables processing of large datasets with ease
Core Count: 14
Improved Multitasking and Performance
The Intel Xeon E5-2690V4 Processor boasts an impressive core count of 14, making it a powerhouse for multitasking and demanding workloads. With more cores, users can run multiple applications simultaneously without experiencing a significant drop in performance. Whether you're running virtual machines, encoding videos, or performing complex simulations, the 14 cores of the E5-2690V4 ensure smooth and efficient operation.
Enhanced Parallel Processing
Parallel processing is a crucial aspect of modern computing, enabling tasks to be divided into smaller parts and executed simultaneously. The 14 cores of the E5-2690V4 Processor allow for efficient parallel processing, resulting in faster execution times for computationally intensive tasks. This is particularly beneficial for professionals working with data analysis, scientific research, and high-performance computing.
Optimized Server Performance
In server environments, the E5-2690V4's 14 cores translate into improved performance and responsiveness. Servers hosting multiple virtual machines or handling heavy workloads can greatly benefit from the increased core count. With each core capable of executing independent tasks, server administrators can ensure smooth operations and avoid bottlenecks that may hinder overall performance.
Seamless Virtualization
The 14 cores of the E5-2690V4 Processor provide ample resources for virtualization. Virtualization allows users to create multiple virtual machines on a single physical server, enabling better hardware utilization and reducing costs. With its high core count, the E5-2690V4 can handle more virtual machines simultaneously, delivering excellent performance and ensuring each virtual environment operates smoothly.
Base Clock Speed: 2.6GHz
Responsive and Snappy Performance
The base clock speed of the Intel Xeon E5-2690V4 Processor is set at 2.6GHz, providing a solid foundation for reliable and responsive performance. The base clock speed represents the frequency at which the processor operates under normal conditions, ensuring smooth execution of everyday tasks. Whether you're browsing the web, editing documents, or running lightweight applications, the E5-2690V4's base clock speed ensures a snappy and efficient user experience.
Quick Execution of Single-Threaded Applications
While multi-core performance is essential for demanding workloads, single-threaded applications still exist and can benefit from a high base clock speed. The 2.6GHz base clock speed of the E5-2690V4 Processor ensures that single-threaded tasks are executed quickly and efficiently. Applications such as web browsers, office suites, and certain design software often rely on a single core for their primary operations. With its high base clock speed, the E5-2690V4 excels in handling these tasks with ease.
Smooth Gaming Experience
Gaming enthusiasts will appreciate the E5-2690V4's 2.6GHz base clock speed as it guarantees a smooth gaming experience. While gaming primarily relies on the graphics card, the processor still plays a vital role in handling game logic and AI computations. With its high base clock speed, the E5-2690V4 ensures that games run seamlessly, reducing lag and improving overall responsiveness.
Efficient Power Management
The 2.6GHz base clock speed strikes a balance between performance and power consumption. The E5-2690V4 Processor intelligently manages its power allocation based on workload demands, dynamically adjusting the clock speed to optimize performance while minimizing energy consumption. This efficient power management not only saves on electricity costs but also helps reduce heat generation, contributing to a cooler and more environmentally friendly computing environment.
L3 Cache: 35MB
Accelerated Data Access
The Intel Xeon E5-2690V4 Processor features a generous 35MB L3 cache, which acts as a high-speed memory bank for frequently accessed data. The larger the cache, the more data can be stored close to the processor, reducing the time it takes to retrieve information from system memory or storage devices. With its substantial L3 cache, the E5-2690V4 ensures quick data access and minimizes potential bottlenecks, leading to improved overall system performance.
Efficient Task Execution
The large L3 cache of the E5-2690V4 Processor enables efficient task execution by storing frequently accessed instructions and data. When a task requires access to previously processed information, the processor can quickly retrieve it from the cache instead of waiting for it to be fetched from system memory or storage. This reduces latency and allows for faster execution of instructions, resulting in improved application responsiveness and smoother user experiences.
Enhanced Virtual Machine Performance
Virtualization heavily relies on memory access and data retrieval. The 35MB L3 cache of the E5-2690V4 Processor provides virtual machines with fast and efficient access to frequently used data, improving their overall performance. With virtual machines running concurrently, having a large L3 cache ensures smooth operations and minimizes delays caused by data retrieval. This makes the E5-2690V4 an ideal choice for virtualized environments where responsiveness and efficiency are paramount.
Seamless Content Creation
Content creation tasks, such as video editing, image rendering, and audio processing, often involve working with large files and datasets. The 35MB L3 cache of the E5-2690V4 Processor allows for quick access to these files, reducing the time it takes to load and process them. Content creators can expect improved efficiency and shorter rendering times, enabling them to work more productively and meet tight deadlines.
QPI Speed: 9.6GT/s
High-Speed Data Transfer
The QPI (QuickPath Interconnect) speed of 9.6GT/s in the Intel Xeon E5-2690V4 Processor ensures rapid communication between the processor and other system components. QPI is responsible for connecting the processor to the memory subsystem, other processors in multi-socket configurations, and I/O devices. With its high speed, the E5-2690V4 enables efficient data transfer, reducing latency and ensuring smooth operation even under heavy workloads.
Improved System Scalability
QPI plays a critical role in multi-processor systems, allowing for scalable configurations with enhanced performance. The 9.6GT/s QPI speed of the E5-2690V4 Processor enables fast interconnectivity between multiple processors, facilitating efficient communication and coordination between them. This allows for seamless scaling of processing power, making it an excellent choice for servers and workstations that require high-performance computing capabilities.
Reduced Memory Latency
The high QPI speed of the E5-2690V4 contributes to reduced memory latency, ensuring faster access to system memory. Memory latency refers to the time it takes for the processor to fetch data from memory. With a faster QPI speed, the E5-2690V4 minimizes memory access delays, leading to improved overall system performance and responsiveness. This is particularly beneficial in memory-intensive applications such as databases, virtualization, and scientific computing.
Efficient I/O Performance
The QPI speed also impacts the performance of I/O devices by enabling fast data transfer between the processor and peripherals. With a QPI speed of 9.6GT/s, the E5-2690V4 ensures efficient communication with storage devices, network adapters, and other peripherals. This results in reduced data transfer times and improved overall system responsiveness, making it an ideal choice for high-bandwidth applications such as media streaming and data-intensive tasks.
Socket: FCLGA2011
Compatibility with Existing Infrastructure
The Intel Xeon E5-2690V4 Processor utilizes the FCLGA2011 socket, making it compatible with a wide range of motherboards designed for this socket. This ensures seamless integration into existing server or workstation infrastructures without the need for significant hardware upgrades. Users can simply replace their current processor with the E5-2690V4, taking advantage of its advanced features and performance improvements without disrupting their existing setup.
Scalability and Future-Proofing
The FCLGA2011 socket provides users with scalability options for future upgrades. As technology advances and higher-performing processors become available, users can easily swap out the E5-2690V4 for a more powerful processor that fits the same socket. This allows for future-proofing of systems, ensuring that they can adapt to evolving computational demands without requiring a complete overhaul of the hardware infrastructure.
Reliable and Secure Connection
The FCLGA2011 socket delivers a secure and reliable connection between the processor and the motherboard. Its robust design ensures proper alignment and electrical connectivity, minimizing the risk of data corruption or hardware failure. With a reliable socket connection, users can have peace of mind knowing that their system is built on a stable foundation, capable of delivering consistent performance and uptime.
Efficient Thermal Management
The FCLGA2011 socket facilitates efficient thermal management by providing a secure mounting point for the processor's heatsink and fan assembly. The socket's design ensures proper heat dissipation, allowing the processor to operate at optimal temperatures even under heavy workloads. Effective thermal management is essential for maintaining system stability and longevity, as it prevents overheating and potential damage to sensitive components.
Power Consumption: 135W
Energy Efficiency
The Intel Xeon E5-2690V4 Processor strikes a balance between performance and power consumption, with a TDP (Thermal Design Power) rating of 135W. This ensures energy efficiency without compromising on processing capabilities. The 135W power consumption is particularly impressive considering the E5-2690V4's high core count and clock speed, making it an excellent choice for environmentally conscious users or organizations aiming to reduce their carbon footprint.
Cost Savings
The E5-2690V4's energy-efficient design translates into cost savings over time. By consuming less power, users can expect reduced electricity bills, especially in scenarios where multiple processors are deployed in server environments. The lower power consumption also leads to less heat generation, reducing the need for extensive cooling solutions and further contributing to cost savings in terms of infrastructure and maintenance.
Cool and Quiet Operation
The 135W power consumption ensures that the Intel Xeon E5-2690V4 Processor operates within acceptable temperature ranges, resulting in a cooler and quieter computing experience. The processor's thermal management system can effectively dissipate the heat generated, preventing excessive fan noise or the need for additional cooling measures. This is particularly advantageous for professionals working in noise-sensitive environments or those seeking a peaceful computing environment.
Stability and Reliability
The E5-2690V4's power consumption plays a crucial role in maintaining system stability and reliability. By operating within its specified power limits, the processor can deliver consistent performance without risking overheating or instability. This is especially important for mission-critical applications, where system downtime or failures can have severe consequences. With its 135W power consumption, the E5-2690V4 ensures reliable operation and reduces the likelihood of unexpected performance drops or crashes.
Manufacturing Technology: 14NM
Enhanced Performance per Watt
The 14nm manufacturing technology used in the Intel Xeon E5-2690V4 Processor delivers improved performance per watt compared to previous generations. This means that the processor can achieve higher levels of performance while consuming less power, resulting in energy-efficient computing. The 14nm manufacturing process allows for smaller transistors, reducing power leakage and enabling higher clock speeds without compromising on energy efficiency.
Thermal Efficiency
The 14nm manufacturing technology also contributes to enhanced thermal efficiency. Smaller transistors generate less heat, allowing the processor to operate at lower temperatures even under heavy workloads. This reduces the need for extensive cooling solutions and ensures a stable and reliable computing environment. The thermal efficiency provided by the 14nm manufacturing process is particularly beneficial in server environments where maintaining optimal temperatures is critical for performance and longevity.
Increased Transistor Density
The 14nm manufacturing process enables an increased transistor density, allowing for more transistors to be packed into the same physical space compared to previous generations. This enhanced transistor density results in improved processing power and overall performance as more calculations can be performed simultaneously. With its 14nm manufacturing technology, the E5-2690V4 Processor offers users a significant boost in computational capabilities without sacrificing energy efficiency or thermal management.
Future-Proofing
By utilizing the advanced 14nm manufacturing technology, the E5-2690V4 Processor ensures future-proofing and compatibility with upcoming technologies. As more software and applications are optimized for processors built on the 14nm architecture, users can expect better performance and compatibility in the years to come. Investing in a processor with a 14nm manufacturing process ensures that users can leverage new features and advancements without replacing their hardware.
Part Number: CM8066002030908
Easy Identification
The part number CM8066002030908 uniquely identifies the Intel Xeon E5-2690V4 Processor, making it easy to locate and purchase. Whether you're ordering online or browsing through computer hardware catalogs, the part number allows you to quickly find the exact processor you need. This ensures that you receive the correct product without any confusion or potential compatibility issues.
Compatibility Verification
With the part number CM8066002030908, users can easily verify compatibility with their existing hardware configurations. By cross-referencing the part number with the specifications of their motherboard or server, users can ensure that the E5-2690V4 Processor will seamlessly integrate into their system. This eliminates any guesswork and minimizes the risk of purchasing incompatible components.
Manufacturer Support
The part number serves as a reference for manufacturer support and warranty services. In the event of technical issues or product inquiries, users can provide the part number to the manufacturer's support team, enabling them to offer accurate assistance and guidance. The part number acts as a unique identifier that helps streamline the support process and ensures users receive the necessary help from the manufacturer.
Product Authenticity
The part number CM8066002030908 also plays a crucial role in verifying the authenticity of the Intel Xeon E5-2690V4 Processor. Counterfeit products are a concern in the computer hardware market, and using the correct part number allows users to ensure they are purchasing genuine Intel products. Verifying the part number before making a purchase safeguards against potential counterfeit or substandard components.