Intel Xeon E5-2695v3 Processor SR1XG 14 Core 2.3GHz 35MB L3 Cache 9.6GT/S QPI Socket-LGA-2011-3 120W 22NM

Product Details of Intel SR1XG Server Processor

Manufacturer and Model Information

• Manufacturer: Intel Corporation
• Part Number / SKU: SR1XG
• Model: E5-2695V3
• Product Category: Server Processor

Technical Specifications of Intel E5-2695V3

Processor Architecture

• Core Count: 14 Cores
• Base Clock Speed: 2.3 GHz
• Maximum Turbo Frequency: 3.3 GHz
• QuickPath Interconnect (QPI) Speed: 9.6 GT/s
• Instruction Set: 64-bit
• Instruction Set Extensions: AVX 2.0 (Advanced Vector Extensions)

Cache Memory and Power Efficiency

• L3 Cache Size: 35 MB
• Fabrication Process: 22nm Lithography
• Maximum Thermal Design Power (TDP): 120W

Compatibility and Socket Information

Processor Socket

• Compatible Socket Type: LGA 2011-3

Additional Features

• High Performance: Optimized for multi-threaded workloads in server environments
• Energy Efficiency: Low TDP design ensuring balanced performance and power consumption
• Enhanced Instruction Set: Supports AVX 2.0 for improved floating-point operations and data processing

Core Count: 14

The Intel Xeon E5-2695v3 Processor is equipped with an impressive core count of 14. This means that it has 14 independent processing units, allowing it to handle multiple tasks simultaneously. The high core count is particularly beneficial for users who require significant processing power for demanding applications or workloads.

Improved Multitasking

With 14 cores, the Intel Xeon E5-2695v3 Processor excels at multitasking. Whether you're running multiple virtual machines, rendering complex 3D graphics, or performing intensive data analysis, the processor can handle the workload efficiently. Each core can independently execute instructions, enabling you to run multiple tasks concurrently without sacrificing performance.

Enhanced Performance

The abundance of cores in this processor translates to enhanced performance across a wide range of applications. The workload can be distributed among the cores, reducing the burden on each individual core and improving overall efficiency. This results in faster data processing, reduced latency, and smoother multitasking experience.

Optimized for Parallel Computing

The 14-core architecture of the Intel Xeon E5-2695v3 Processor makes it ideal for parallel computing tasks. Applications that can take advantage of parallel processing, such as scientific simulations, video editing software, and financial modeling tools, will benefit greatly from this processor's ability to divide tasks among multiple cores.

Increased Productivity

The Core Count feature significantly boosts productivity for professionals who rely on their computers to complete resource-intensive tasks. With more cores at their disposal, users can accomplish more in less time. Whether you're a content creator, engineer, or researcher, the enhanced multitasking capabilities provided by the Intel Xeon E5-2695v3 Processor's 14 cores allow you to work more efficiently and effectively.

Base Clock Speed: 2.3GHz

The Intel Xeon E5-2695v3 Processor offers a base clock speed of 2.3GHz. The base clock speed represents the frequency at which the processor operates under normal conditions without any turbo boost or overclocking. This feature plays a crucial role in determining the overall performance and responsiveness of the processor.

Smooth and Responsive Performance

A higher base clock speed ensures smoother and more responsive performance, especially during everyday tasks such as web browsing, document editing, and video playback. The 2.3GHz base clock speed of the Intel Xeon E5-2695v3 Processor enables it to handle these tasks with ease, providing a seamless user experience.

Efficient Single-Threaded Performance

While multi-core performance is essential for demanding applications, many tasks still rely heavily on single-threaded performance. The Intel Xeon E5-2695v3 Processor's 2.3GHz base clock speed ensures efficient execution of single-threaded tasks, allowing for quick response times and smooth operation even when running applications that do not fully utilize all 14 cores.

Improved Gaming Experience

Gamers will also benefit from the Intel Xeon E5-2695v3 Processor's base clock speed. Many games are still optimized for single-threaded performance, and a higher base clock speed translates to better gaming performance. The 2.3GHz base clock speed allows for smooth gameplay, reduced input lag, and faster loading times.

Reliable Performance for Workstations

The Base Clock Speed feature is particularly important for workstations that handle resource-intensive tasks such as video editing, 3D rendering, and scientific simulations. These applications often require sustained high-performance levels, and the Intel Xeon E5-2695v3 Processor's 2.3GHz base clock speed ensures reliable and consistent performance throughout demanding workloads.

Cache: 35MB L3

The Intel Xeon E5-2695v3 Processor boasts a generous 35MB of L3 cache. Cache memory plays a crucial role in storing frequently accessed data, instructions, and calculations, allowing for faster access and retrieval. The larger the cache size, the more data can be stored, resulting in improved performance and efficiency.

Reduced Memory Latency

With a substantial 35MB L3 cache, the Intel Xeon E5-2695v3 Processor minimizes the need to access slower system memory, reducing memory latency. Frequently used data and instructions are stored in the cache, ensuring that the processor can quickly retrieve them when needed. This results in faster execution times and improved overall system responsiveness.

Enhanced Multi-Core Performance

The large L3 cache size is particularly beneficial for multi-core performance. As the processor distributes tasks among its 14 cores, each core can access relevant data from the shared L3 cache instead of accessing it from system memory. This reduces latency and improves communication between cores, leading to enhanced multi-core performance and efficient utilization of resources.

Improved Data-Intensive Workloads

Data-intensive applications such as database management systems, scientific simulations, and big data analytics rely heavily on fast data retrieval and processing. The ample 35MB L3 cache of the Intel Xeon E5-2695v3 Processor enables it to efficiently handle these workloads by storing frequently accessed data in the cache. This results in accelerated data processing and improved application performance.

Seamless Virtualization

Virtualization technologies, such as VMware and Hyper-V, benefit greatly from a large L3 cache. The Intel Xeon E5-2695v3 Processor's generous 35MB L3 cache enhances virtual machine performance by allowing for faster memory access and retrieval, reducing latency in virtualized environments. This enables smooth and responsive virtualization experiences, even when running multiple virtual machines simultaneously.

QPI Speed: 9.6GT/S

The Intel Xeon E5-2695v3 Processor features a QPI (Quick Path Interconnect) speed of 9.6GT/s. QPI is an interconnect technology that facilitates high-speed communication between the processor and other system components, such as memory, I/O devices, and other processors in multi-socket configurations.

Optimized System Communication

The 9.6GT/s QPI speed ensures efficient and high-bandwidth communication between the processor and other system components. This is crucial for tasks that require frequent data exchange between the processor and memory, such as complex computations, large dataset processing, and real-time data analysis. The fast QPI speed minimizes data transfer bottlenecks, enabling smooth and uninterrupted system operation.

Scalability for Multi-Socket Configurations

The QPI speed is particularly important in multi-socket configurations, where multiple processors are interconnected to form a powerful computing system. The Intel Xeon E5-2695v3 Processor's 9.6GT/s QPI speed allows for efficient communication between processors, ensuring optimal scalability and performance in these configurations. This makes it an ideal choice for high-performance computing environments and server applications.

Improved I/O Performance

Input/Output (I/O) operations, such as data transfers to storage devices or network communication, can benefit from the fast QPI speed of the Intel Xeon E5-2695v3 Processor. The high-speed interconnect facilitates quick data transmission between the processor and I/O devices, reducing latency and improving overall I/O performance. This results in faster data transfers, reduced waiting times, and improved system responsiveness.

Enhanced System Reliability

The QPI Speed feature also contributes to system reliability. The fast interconnect ensures that data transfers occur without delays or interruptions, minimizing the risk of data loss or system instability. This is particularly crucial for mission-critical applications, where uninterrupted system operation is essential. The Intel Xeon E5-2695v3 Processor's 9.6GT/s QPI speed helps ensure a stable and reliable computing environment.

Socket Type: LGA-2011-3

The Intel Xeon E5-2695v3 Processor utilizes the LGA-2011-3 socket type. The socket type determines the physical connection between the processor and the motherboard. Choosing a compatible socket type is vital when selecting a processor for your system, as it ensures proper installation and optimal performance.

Wide Compatibility

The LGA-2011-3 socket type is widely supported by various high-performance motherboards. This provides users with a wide range of options when building their systems or upgrading existing ones. The availability of multiple motherboard choices allows users to tailor their systems to specific requirements, such as workstation tasks, server applications, or gaming environments.

Support for High-Speed Memory

The LGA-2011-3 socket type supports DDR4 memory technology, which offers higher bandwidth and improved performance compared to previous generations of memory modules. This enables users to take full advantage of the Intel Xeon E5-2695v3 Processor's capabilities and ensures smooth operation even with memory-intensive applications.

Scalability for Multi-Socket Configurations

The LGA-2011-3 socket type is designed to support multi-socket configurations, allowing users to combine multiple processors for increased performance and scalability. This is particularly beneficial for applications that require extensive computational power, such as scientific simulations, virtualization, and data analysis. The LGA-2011-3 socket type provides the necessary infrastructure for building high-performance multi-processor systems.

Future-Proof System Architecture

The LGA-2011-3 socket type offers a future-proof platform for users who plan to upgrade their systems in the future. The socket type's compatibility with a wide range of processors ensures that users have the flexibility to upgrade to newer or more powerful processors without having to change their motherboard. This allows for system longevity and reduces the overall cost of upgrading.

Power Consumption: 120W

The Intel Xeon E5-2695v3 Processor has a power consumption of 120W. Power consumption is a crucial consideration, as it directly affects the operating costs, heat generation, and overall energy efficiency of a system.

Energy Efficiency

The 120W power consumption of the Intel Xeon E5-2695v3 Processor ensures efficient power usage. By optimizing power consumption, this processor strikes a balance between performance and energy efficiency, reducing electricity costs and minimizing environmental impact. It is an excellent choice for users who prioritize energy savings without compromising on processing power.

Cool and Quiet Operation

Efficient power consumption leads to lower heat generation, resulting in cooler operation. The Intel Xeon E5-2695v3 Processor's 120W power consumption helps maintain manageable operating temperatures, reducing the need for excessive cooling solutions and ensuring quiet operation. This is especially important in noise-sensitive environments such as offices or recording studios.

Reduced Operating Costs

The low power consumption of the Intel Xeon E5-2695v3 Processor translates to reduced operating costs over time. With lower energy requirements, users can save on electricity bills, particularly in environments with multiple systems or server infrastructure. The processor's energy-efficient design allows for long-term cost savings while maintaining high-performance capabilities.

Environmentally Friendly Solution

By consuming less power, the Intel Xeon E5-2695v3 Processor contributes to a lower carbon footprint. Lower energy consumption means reduced greenhouse gas emissions, making it an environmentally friendly choice for users who prioritize sustainability. The processor's energy-efficient design aligns with global efforts to reduce energy consumption and promote sustainable computing practices.

Manufacturing Technology: 22NM

The Intel Xeon E5-2695v3 Processor is manufactured using a 22nm (nanometer) process technology. The manufacturing technology represents the size of the smallest features that can be created on the processor's semiconductor die. A smaller manufacturing process offers several advantages in terms of performance, power efficiency, and transistor density.

Improved Performance

The 22nm manufacturing technology allows for the creation of smaller and more efficient transistors. Smaller transistors result in shorter distances for electrical signals to travel, reducing delays and improving overall performance. This enables the Intel Xeon E5-2695v3 Processor to execute instructions faster and handle complex calculations more efficiently.

Power Efficiency

The smaller transistor size made possible by the 22nm manufacturing technology reduces power leakage and improves power efficiency. With less power wasted as heat, the Intel Xeon E5-2695v3 Processor can deliver higher performance per watt, resulting in reduced energy consumption and lower operating costs. This is especially beneficial for systems that run continuously or have strict power requirements.

Higher Transistor Density

The 22nm manufacturing technology enables a higher transistor density, allowing for more transistors to be packed into the same physical space. This increases the processor's computational power and enhances its ability to handle complex tasks. The higher transistor density also provides headroom for future enhancements and improvements, ensuring that the processor remains relevant and capable for years to come.

Enabling Advanced Features

The advanced manufacturing technology behind the Intel Xeon E5-2695v3 Processor enables the implementation of various advanced features. These features may include improved instruction sets, virtualization support, security enhancements, and power management capabilities. The 22nm manufacturing technology ensures that the processor is equipped with the latest advancements, allowing users to take advantage of cutting-edge technologies.

Part Number: SR1XG

The Intel Xeon E5-2695v3 Processor is identified by the part number SR1XG. The part number serves as a unique identifier for the specific model and variant of a processor. It plays a crucial role in ensuring compatibility and facilitating proper identification when purchasing or upgrading processors.

Accurate Identification

The part number SR1XG allows users to accurately identify the Intel Xeon E5-2695v3 Processor when searching for compatible components or comparing specifications. It ensures that users select the correct processor model for their specific requirements, avoiding compatibility issues and potential performance limitations.

Seamless Upgrades

When upgrading an existing system, knowing the part number SR1XG ensures a seamless transition. Users can easily identify if their current system supports the Intel Xeon E5-2695v3 Processor or if they need to make any adjustments or upgrades to accommodate it. This simplifies the upgrade process and minimizes potential complications.

Technical Support and Documentation

The part number SR1XG also aids in accessing technical support and documentation related to the Intel Xeon E5-2695v3 Processor. Users can refer to the part number when seeking assistance or searching for specific information, such as driver updates, compatibility guidelines, or troubleshooting resources. The unique part number ensures accurate and relevant support for the specific processor model.