Intel Xeon E5-2683V4 SR2JT 16-Core 2.1GHz Processor

Cores

The Intel Xeon E5-2683V4 SR2JT Processor is equipped with 16 cores, making it a powerful choice for users who require high-performance computing. With a large number of cores, this processor can handle multiple tasks simultaneously, resulting in improved multitasking capabilities and increased overall productivity.

Enhanced Multitasking

Having 16 cores allows the Intel Xeon E5-2683V4 SR2JT Processor to efficiently handle resource-intensive applications and workloads. Whether you are running complex simulations, rendering graphics, or analyzing large datasets, the processor's ample number of cores ensures smooth and efficient multitasking without any significant performance degradation.

Seamless Virtualization

In virtualized environments, such as data centers or cloud computing platforms, the abundance of cores in the Intel Xeon E5-2683V4 SR2JT Processor enables efficient virtual machine (VM) management. Each VM can be allocated dedicated cores, ensuring optimal performance and preventing performance bottlenecks that can occur with fewer cores.

Improved Parallel Processing

The 16 cores in the Intel Xeon E5-2683V4 SR2JT Processor enable highly efficient parallel processing. This is particularly beneficial for tasks that can be divided into smaller subtasks and processed simultaneously. Examples include video editing, scientific simulations, and financial modeling. By distributing the workload across multiple cores, the processor significantly reduces processing time and improves overall performance.

Base Clock Speed

The Intel Xeon E5-2683V4 SR2JT Processor features a base clock speed of 2.1GHz. This clock speed determines the rate at which the processor executes instructions and performs calculations. The base clock speed is an essential specification that directly impacts the overall performance of the processor.

Responsive Performance

The base clock speed of 2.1GHz ensures that the Intel Xeon E5-2683V4 SR2JT Processor delivers responsive performance across a wide range of applications. Whether you are browsing the web, working with office productivity software, or running demanding software, the processor's base clock speed ensures smooth and lag-free operation.

Efficient Single-Threaded Performance

For applications that primarily rely on single-threaded performance, such as certain games or legacy software, the Intel Xeon E5-2683V4 SR2JT Processor's base clock speed of 2.1GHz provides a solid foundation. The processor can quickly execute instructions for these applications, resulting in smooth gameplay and seamless operation.

Boosting Performance with Turbo Boost

In addition to the base clock speed, the Intel Xeon E5-2683V4 SR2JT Processor also features Intel Turbo Boost technology. This technology dynamically increases the clock speed of the processor when needed, providing an extra boost of performance for demanding tasks. The combination of a high base clock speed and Turbo Boost ensures that the processor can handle resource-intensive workloads efficiently.

L3 Cache

The Intel Xeon E5-2683V4 SR2JT Processor comes with a generous 40MB of L3 cache. The L3 cache is a high-speed memory that stores frequently accessed data for quick retrieval. With a larger cache size, the processor can store more data, resulting in improved overall performance.

Faster Data Access

The 40MB L3 cache in the Intel Xeon E5-2683V4 SR2JT Processor allows for faster data access, reducing the time it takes for the processor to retrieve necessary information. This is particularly beneficial for applications that frequently access large datasets, such as databases or scientific simulations. With faster data access, these applications can perform computations more efficiently.

Reduced Memory Latency

The presence of a larger L3 cache reduces the need for the processor to access slower system memory. This results in reduced memory latency, as the processor can retrieve frequently accessed data directly from the cache instead of accessing it from main memory. The reduced latency translates to improved overall system performance and responsiveness.

Improved Gaming Performance

For gamers, a larger L3 cache can lead to improved gaming performance. Games often require quick access to game assets, textures, and other data. With a larger cache, the Intel Xeon E5-2683V4 SR2JT Processor can store more game-related data, resulting in faster load times and smoother gameplay.

QPI Speed

The Intel Xeon E5-2683V4 SR2JT Processor features a QPI (QuickPath Interconnect) speed of 9.6GT/s (GigaTransfers per second). QPI is a high-speed interface that connects the processor to other components, such as memory and peripheral devices. The QPI speed plays a crucial role in determining the overall system performance.

Faster Data Transfer

The 9.6GT/s QPI speed enables faster data transfer between the Intel Xeon E5-2683V4 SR2JT Processor and other components. This is particularly important in systems that handle large amounts of data, such as servers or workstations used for data processing or content creation. With faster data transfer, these systems can process and transfer data more efficiently.

Optimized Memory Performance

The QPI speed directly impacts the memory performance of the system. A higher QPI speed allows for faster communication between the processor and memory modules, resulting in improved memory performance. This is especially beneficial for memory-intensive tasks, such as virtualization or running memory-hungry applications.

Enhanced Scalability

The high QPI speed of 9.6GT/s enables improved scalability in multi-processor systems. When multiple processors are connected via QPI, the high-speed interface ensures efficient communication between them. This allows for seamless scaling of computational power, making the Intel Xeon E5-2683V4 SR2JT Processor an excellent choice for high-performance computing clusters or server environments.

Socket Type

The Intel Xeon E5-2683V4 SR2JT Processor is designed to fit the FCLGA-2011 socket type. The socket type refers to the physical connection between the processor and the motherboard. Choosing a compatible socket type is crucial for ensuring proper installation and compatibility with other system components.

Wide Compatibility

The FCLGA-2011 socket type is widely supported by a range of motherboards, making it easier to find compatible hardware for the Intel Xeon E5-2683V4 SR2JT Processor. Whether you are building a workstation or upgrading an existing system, the availability of compatible motherboards ensures a smooth installation process.

Support for Advanced Features

The FCLGA-2011 socket type supports advanced features like multiple PCIe lanes and high-speed memory modules. This allows users to take advantage of cutting-edge technologies and expandability options. Whether you require high-performance graphics cards or large amounts of RAM, the FCLGA-2011 socket type provides the necessary infrastructure for these components.

Future-Proofing Your System

Choosing a processor with a widely supported socket type like FCLGA-2011 helps future-proof your system. As new technologies and advancements emerge, you can easily upgrade your system by replacing the processor while keeping the existing motherboard. This ensures long-term compatibility and extends the lifespan of your system.

Power Consumption

The Intel Xeon E5-2683V4 SR2JT Processor has a power consumption rating of 120W. Power consumption refers to the amount of electrical power the processor requires to operate under normal conditions. Understanding the power consumption is essential for selecting an appropriate cooling solution and ensuring system stability.

Efficient Power Management

The power consumption rating of 120W indicates that the Intel Xeon E5-2683V4 SR2JT Processor is designed with power efficiency in mind. The processor incorporates advanced power management features that intelligently adjust its power usage based on the workload. This ensures optimal performance while minimizing energy consumption.

Cooling Considerations

With a power consumption of 120W, it is crucial to choose an adequate cooling solution for the Intel Xeon E5-2683V4 SR2JT Processor. A cooling solution that can effectively dissipate heat ensures that the processor operates within safe temperature limits. This is especially important in systems that undergo heavy workloads or operate in warm environments.

Reduced Energy Costs

The efficient power management of the Intel Xeon E5-2683V4 SR2JT Processor translates to reduced energy costs for businesses and individuals. By optimizing power usage, the processor minimizes electricity consumption, resulting in lower energy bills. This makes it an environmentally friendly choice that aligns with energy-saving initiatives.

Manufacturing Technology

The Intel Xeon E5-2683V4 SR2JT Processor is built using a 14nm manufacturing technology. The manufacturing technology refers to the size of transistors and other components on the processor's integrated circuit. Smaller manufacturing technology allows for more transistors to be packed into the same space, resulting in improved performance and efficiency.

Higher Performance

The 14nm manufacturing technology used in the Intel Xeon E5-2683V4 SR2JT Processor enables higher transistor density compared to processors built with larger manufacturing technologies. This results in improved performance as more transistors can perform calculations simultaneously, increasing the processor's computational power.

Reduced Power Consumption

Smaller transistors and components in the 14nm manufacturing technology require less power to operate. This leads to reduced power consumption and improved energy efficiency. The Intel Xeon E5-2683V4 SR2JT Processor's 14nm manufacturing technology ensures that it delivers high performance while minimizing energy usage.

Heat Dissipation

The use of a 14nm manufacturing technology also contributes to improved heat dissipation. Smaller transistors generate less heat, allowing for better thermal management in systems that utilize the Intel Xeon E5-2683V4 SR2JT Processor. This ensures stable operation and prevents overheating issues that can negatively impact performance and overall system reliability.