Intel Xeon E5-2637V4 CM8066002041100 3.5GHz Quad-Core Processor

Clock Speed

Enhanced Performance

The Intel Xeon E5-2637V4 Quad-Core Processor boasts a clock speed of 3.5GHz, making it a powerful option for users seeking enhanced performance. A high clock speed allows the processor to execute more instructions per second, resulting in faster data processing and improved overall system performance.

Smooth Multitasking

With a clock speed of 3.5GHz, this processor offers smooth multitasking capabilities. Whether you're running resource-intensive applications or handling complex tasks simultaneously, the high clock speed ensures that your system can handle the workload without slowing down.

Real-Time Responsiveness

The 3.5GHz clock speed enables real-time responsiveness, particularly when it comes to demanding tasks such as video editing, 3D rendering, or running virtual machines. With faster processing speeds, you can expect quicker rendering times and seamless user experiences.

Efficient Workflows

The high clock speed of the Intel Xeon E5-2637V4 Quad-Core Processor facilitates efficient workflows, allowing you to complete tasks in less time. Whether you're working on complex calculations, scientific simulations, or data analysis, the processor's fast clock speed ensures that you can complete your work efficiently.

Improved Gaming Performance

Gamers will also benefit from the 3.5GHz clock speed of this processor. Higher clock speeds translate to smoother gameplay and faster frame rates, enhancing the overall gaming experience. Whether you're playing graphically demanding games or engaging in multiplayer battles, the Intel Xeon E5-2637V4 Quad-Core Processor delivers the performance necessary for an immersive gaming session.

Reduced Latency

The 3.5GHz clock speed significantly reduces latency, ensuring that your system responds swiftly to your commands. Whether you're launching applications, opening files, or accessing data, the processor's high clock speed minimizes the time it takes for your system to process your requests.

Optimized Software Performance

Software applications that are optimized for high clock speeds can take full advantage of the Intel Xeon E5-2637V4 Quad-Core Processor's capabilities. Programs that require fast data processing, such as audio and video editing software or engineering design tools, will perform exceptionally well with this processor.

Effortless Overclocking

For advanced users and enthusiasts, the 3.5GHz clock speed provides a solid foundation for overclocking. Overclocking allows you to push the processor beyond its default clock speed, further increasing performance. With the Intel Xeon E5-2637V4 Quad-Core Processor's high base clock speed, you have more headroom for overclocking while maintaining stability.

Cache

Quick Data Access

The Intel Xeon E5-2637V4 Quad-Core Processor features a generous 15MB L3 cache. The cache acts as a high-speed memory pool that stores frequently accessed data, allowing for quick retrieval and reducing the need to fetch data from slower main memory. This results in faster processing times and improved overall performance.

Accelerated Application Performance

The 15MB L3 cache of this processor significantly improves application performance. Applications that rely on large datasets or frequently accessed files can benefit greatly from the cache's ability to store and retrieve data quickly. Whether you're working with large databases, performing complex calculations, or running virtual machines, the cache ensures smooth and efficient operation.

Seamless Multitasking

The ample 15MB L3 cache enables seamless multitasking by storing and managing multiple sets of data simultaneously. This allows the processor to quickly switch between different tasks without the need to constantly access main memory, resulting in a smooth and responsive user experience.

Reduced Memory Latency

With a large cache, the Intel Xeon E5-2637V4 Quad-Core Processor reduces memory latency. By keeping frequently accessed data closer to the processor, the cache minimizes the time it takes for the processor to fetch information from main memory. This reduces the overall latency of memory operations, resulting in faster data processing and improved system performance.

Efficient Virtualization

Virtualization environments benefit greatly from the 15MB L3 cache of this processor. With multiple virtual machines running simultaneously, the cache ensures that each virtual machine has quick access to its data, minimizing potential bottlenecks and improving overall virtualization performance.

Enhanced Gaming Experience

Gamers will also notice improved performance with the 15MB L3 cache. The cache helps reduce loading times and provides faster access to game assets, resulting in smoother gameplay and reduced stuttering. In open-world games or those with large maps, the cache's ability to store frequently accessed data ensures a seamless gaming experience.

Accelerated Content Creation

Content creators working with video editing, 3D modeling, or graphic design software can benefit from the 15MB L3 cache. With large file sizes and complex rendering processes, having quick access to frequently used data significantly speeds up content creation workflows. The cache helps maintain smooth playback, faster rendering times, and overall improved productivity.

Efficient Database Management

Databases often require fast data access for efficient management. The 15MB L3 cache allows for speedy retrieval of frequently accessed database records, reducing query response times and improving overall database performance. Whether you're running an e-commerce website or managing a large customer database, the cache ensures efficient data processing.

QPI Speed

High-Speed Interconnect

The Intel Xeon E5-2637V4 Quad-Core Processor features a QPI speed of 9.6GT/s (GigaTransfers per second). QPI (QuickPath Interconnect) is a high-speed interconnect technology that facilitates the communication between the processor and other components, such as memory and I/O devices. The high QPI speed ensures fast and efficient data transfer, reducing bottlenecks and improving overall system performance.

Seamless Data Flow

With a QPI speed of 9.6GT/s, this processor enables seamless data flow between different components. Whether you're transferring large files, accessing memory-intensive applications, or communicating with high-speed storage devices, the high QPI speed ensures that data can move quickly and efficiently.

Improved System Responsiveness

The 9.6GT/s QPI speed enables improved system responsiveness by reducing the time it takes for data to travel between components. This is especially crucial in demanding applications where low latency is essential for real-time operations. Whether you're working with multimedia content, running virtual machines, or performing scientific simulations, the high QPI speed ensures smooth and responsive system performance.

Efficient Scalability

The high QPI speed of the Intel Xeon E5-2637V4 Quad-Core Processor allows for efficient scalability in multi-processor systems. With faster interconnects between processors, data can be shared and processed more efficiently, enabling better utilization of system resources. This is particularly advantageous in server environments or workstations that handle heavy workloads and require seamless scalability.

Enhanced Virtualization Performance

Virtualization environments benefit from the 9.6GT/s QPI speed as it allows for efficient communication between virtual machines and the host system. With faster data transfer rates, virtual machines can communicate with the host system and each other more quickly, improving overall virtualization performance and responsiveness.

Accelerated Storage Performance

Storage devices that support high-speed interfaces, such as PCIe SSDs, can take full advantage of the 9.6GT/s QPI speed. The fast interconnect enables rapid data transfer between the processor and storage devices, reducing latency and improving storage performance. Whether you're working with large files or running applications that rely on fast storage access, the high QPI speed ensures optimal performance.

Efficient Data Processing

The 9.6GT/s QPI speed is crucial for efficient data processing in high-performance computing environments. Whether you're running complex simulations, performing scientific calculations, or analyzing big data, the high-speed interconnect ensures that data can be processed quickly, improving overall computational efficiency.

Improved Networking Performance

Networking-intensive applications can benefit from the 9.6GT/s QPI speed. With faster communication between the processor and network interfaces, data can be transmitted and received more efficiently, reducing latency and improving networking performance. Whether you're running a high-traffic web server or managing a network infrastructure, the high QPI speed ensures optimal networking capabilities.

Socket Type

Compatibility and Upgradeability

The Intel Xeon E5-2637V4 Quad-Core Processor utilizes the FCLGA2011 socket type. The FCLGA2011 socket is compatible with a range of motherboards designed for Intel Xeon processors. This ensures easy compatibility and upgradeability, allowing users to seamlessly upgrade their existing systems or build new systems around this processor without worrying about socket compatibility.

Future-Proofing

By utilizing the FCLGA2011 socket type, this processor offers future-proofing capabilities. Users can take advantage of the processor's performance now and have the flexibility to upgrade to a more powerful Intel Xeon processor in the future, without the need to replace the motherboard. This allows for cost-effective upgrades and extends the lifespan of the system.

Support for Advanced Features

The FCLGA2011 socket type supports advanced features such as multiple memory channels, PCI Express lanes, and high-speed interconnects. This provides users with various expansion options and allows for the integration of cutting-edge technologies, ensuring that your system can keep up with evolving hardware requirements.

Reliability and Stability

The FCLGA2011 socket type is known for its reliable and stable performance. The secure connection between the processor and motherboard ensures proper power delivery and data transmission, minimizing the risk of system instability or component failures. Whether you're running mission-critical applications or demanding workloads, the FCLGA2011 socket type provides a robust foundation for your system.

Scalability for High-Performance Computing

The FCLGA2011 socket type allows for scalability in high-performance computing environments. Servers or workstations that require multiple processors can take advantage of this socket type to build powerful systems with increased processing capabilities. The ability to install multiple Intel Xeon processors in a single system enables efficient parallel processing and improved overall performance.

Support for ECC Memory

The FCLGA2011 socket type supports Error-Correcting Code (ECC) memory, which detects and corrects memory errors in real-time. ECC memory provides an additional layer of data integrity, making it highly reliable in critical applications where data accuracy is crucial. Whether you're working with scientific simulations or managing large databases, the support for ECC memory ensures data integrity and system stability.

Efficient Virtualization Support

Virtualization environments can benefit from the FCLGA2011 socket type's features. With the ability to install multiple processors and support for advanced technologies, such as ECC memory and high-speed interconnects, the socket type ensures efficient virtualization performance. Whether you're running multiple virtual machines or managing a complex virtual infrastructure, the FCLGA2011 socket type provides the necessary capabilities for seamless virtualization.

Support for High-Speed Storage

The FCLGA2011 socket type enables support for high-speed storage interfaces, such as PCIe SSDs. With faster data transfer rates between the processor and storage devices, users can take advantage of high-performance storage solutions. Whether you're working with large files, running data-intensive applications, or managing a storage-intensive workload, the FCLGA2011 socket type ensures optimal storage performance.

Power

Optimal Performance

The Intel Xeon E5-2637V4 Quad-Core Processor operates at a power of 135W. This power rating ensures optimal performance while maintaining stability and reliability. The processor's power consumption is carefully balanced to deliver high performance without compromising energy efficiency.

Efficient Workloads

With a power rating of 135W, this processor is designed to handle demanding workloads efficiently. Whether you're running resource-intensive applications or performing complex calculations, the processor's power ensures that your system can handle the workload without experiencing performance bottlenecks or stability issues.

Enhanced System Stability

The 135W power rating of the Intel Xeon E5-2637V4 Quad-Core Processor contributes to enhanced system stability. The power delivered to the processor is carefully regulated, ensuring consistent and reliable performance even under heavy loads. This stability is crucial in critical applications or server environments where system uptime is of utmost importance.

Reduced Energy Consumption

While operating at 135W, this processor is designed to optimize energy consumption. Intel's advanced power management technologies allow the processor to dynamically adjust its power usage based on workload demands. This results in reduced energy consumption during lighter workloads, contributing to overall energy efficiency and lower operating costs.

Cooling Efficiency

The 135W power rating ensures compatibility with cooling solutions designed to handle the processor's thermal output. The processor's power envelope is carefully balanced to prevent overheating and maintain optimal operating temperatures. This allows users to choose cooling solutions that are both efficient and compatible with the processor's power requirements.

Quiet and Reliable Operation

The power rating of 135W ensures that the Intel Xeon E5-2637V4 Quad-Core Processor operates quietly and reliably. The optimized power consumption and cooling capabilities minimize noise levels, providing a quieter computing environment. Additionally, the stable operation of the processor at the specified power rating ensures long-term reliability and reduces the risk of premature component failures.

Cost-Effective Performance

The 135W power rating strikes a balance between performance and energy consumption, making it a cost-effective option for users who require high-performance computing. By delivering optimal performance within a defined power envelope, users can achieve their computing goals without incurring excessive energy costs or compromising on system stability.

Green Computing

The Intel Xeon E5-2637V4 Quad-Core Processor's power rating of 135W aligns with green computing initiatives. Green computing aims to reduce the environmental impact of technology by promoting energy-efficient practices. By utilizing a processor with an optimal power rating, users can contribute to sustainability efforts while still enjoying high-performance computing capabilities.

Manufacturing Process

Enhanced Performance and Efficiency

The Intel Xeon E5-2637V4 Quad-Core Processor is manufactured using the 14nm process. The 14nm process technology allows for the integration of more transistors within a smaller space, resulting in improved performance and energy efficiency.

Higher Transistor Density

The 14nm manufacturing process enables a higher transistor density compared to previous generations. This means that more transistors can be packed into the processor's die, allowing for increased computational power and enhanced overall system performance. With a higher transistor density, the processor can execute more instructions per clock cycle, resulting in faster data processing.

Lower Power Consumption

The 14nm manufacturing process contributes to lower power consumption. The smaller transistor size reduces leakage current and allows the processor to operate at lower voltages while maintaining performance. This results in improved energy efficiency, reducing both operating costs and environmental impact.

Improved Thermal Performance

The 14nm manufacturing process also improves thermal performance. With smaller transistors, heat generated during operation is more efficiently dissipated. This allows the processor to maintain optimal operating temperatures while running demanding applications or workloads, ensuring long-term stability and reliability.

Overclocking Potential

The 14nm manufacturing process enhances the processor's overclocking potential. With smaller transistors, the processor can achieve higher clock speeds while maintaining stability. This provides advanced users and enthusiasts with additional headroom for overclocking, allowing them to push the processor beyond its default specifications for even greater performance.

Compact Form Factor

The 14nm manufacturing process enables a compact form factor for the Intel Xeon E5-2637V4 Quad-Core Processor. With smaller transistors, the processor can be integrated into smaller devices, such as compact workstations or servers, without sacrificing performance. This allows for more efficient space utilization and provides greater flexibility in system design.

Improved Power Efficiency

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