Dell Processor 338-BFMT Intel Xeon E5-2699V3 2.3GHz 18-Core 45MB L3 Cache

Core Count: 18

The Dell E5-2699V3 Processor is equipped with an impressive core count of 18. This feature sets it apart from many other processors on the market, offering users a significant advantage in terms of performance and efficiency.

Increased Multitasking Capability

With 18 cores, this processor is designed to handle heavy workloads and demanding tasks with ease. Whether you're running multiple applications simultaneously or working on resource-intensive projects, the Dell E5-2699V3 Processor ensures smooth multitasking without sacrificing performance.

Optimized Performance for Server Applications

The abundance of cores in this processor makes it an excellent choice for server applications. With a higher core count, you can allocate resources more efficiently, ensuring that each task receives the necessary processing power. This results in faster data processing, improved server responsiveness, and enhanced overall performance.

Improved Virtualization Performance

Virtualization is a critical aspect of modern computing, allowing users to create multiple virtual machines on a single physical server. The 18 cores of the Dell E5-2699V3 Processor enable efficient virtual machine management by providing ample resources for each instance. This allows for smoother operation and seamless execution of virtualized environments.

Enhanced Rendering and Content Creation

For professionals working in fields such as 3D modeling, animation, video editing, or graphic design, the high core count of this processor can significantly shorten rendering times and improve workflow efficiency. The 18 cores can distribute the rendering workload effectively, resulting in faster project completion and increased productivity.

Efficient Resource Allocation

With 18 cores at your disposal, you can assign specific tasks to individual cores, ensuring optimal resource allocation. This flexibility enables you to prioritize critical processes and allocate more power to them while keeping other tasks running smoothly in the background. This efficient resource management leads to improved overall system performance and responsiveness.

Future-Proofing Your System

Investing in a processor with a higher core count like the Dell E5-2699V3 Processor ensures that your system remains capable of handling increasingly demanding software and applications in the future. As software becomes more optimized for multi-core processors, having 18 cores provides a level of future-proofing that can extend the lifespan and usability of your system.

Base Clock Speed: 2.3GHz

The Dell E5-2699V3 Processor boasts a base clock speed of 2.3GHz. This feature plays a crucial role in determining the overall performance and speed of the processor, making it an essential consideration for users seeking high-performance computing.

Swift and Responsive System

The base clock speed is the frequency at which the processor operates under normal conditions. With a base clock speed of 2.3GHz, the Dell E5-2699V3 Processor ensures snappy system responsiveness, allowing you to navigate through applications and perform tasks with minimal lag.

Smooth Execution of Single-Threaded Applications

While multi-core performance is vital for handling parallel tasks, single-threaded applications rely heavily on the base clock speed. The higher the base clock speed, the faster these applications can execute their operations. The 2.3GHz base clock speed of this processor provides swift execution for single-threaded applications, resulting in smoother operation and reduced waiting times.

Efficient Resource Allocation

The base clock speed also plays a role in resource allocation within the processor. When certain tasks don't require the full power of all cores, the processor can allocate additional power to individual cores by increasing their clock speeds beyond the base frequency. This dynamic allocation ensures that each task receives the necessary processing power while maintaining overall system efficiency.

Improved Gaming Performance

For gamers, a high base clock speed is crucial in ensuring smooth gameplay and reducing input lag. The 2.3GHz base clock speed of the Dell E5-2699V3 Processor allows for quick execution of game instructions and enhances the overall gaming experience by providing faster response times and smoother frame rates.

Overclocking Potential

The base clock speed of a processor also determines its overclocking potential. Overclocking refers to pushing the processor beyond its default clock speed to achieve even higher performance. With a base clock speed of 2.3GHz, the Dell E5-2699V3 Processor provides a solid foundation for overclocking enthusiasts who want to squeeze out additional performance from their system.

Energy Efficiency

In addition to performance benefits, the 2.3GHz base clock speed also contributes to energy efficiency. The processor can operate at a lower frequency when performing less demanding tasks, reducing power consumption and contributing to a more sustainable computing experience.

L3 Cache: 45MB

The Dell E5-2699V3 Processor features an impressive L3 cache size of 45MB. The L3 cache is an essential component of a processor that plays a crucial role in enhancing performance and improving overall system responsiveness.

Accelerated Data Access

The L3 cache acts as a buffer between the processor cores and the main memory, storing frequently accessed data for quick retrieval. With a larger cache size of 45MB, the Dell E5-2699V3 Processor can store more data closer to the cores, reducing the time required to access information from the main memory. This results in accelerated data retrieval, faster application loading times, and improved overall system performance.

Efficient Resource Sharing

The substantial L3 cache size allows the processor cores to share resources more efficiently. When multiple cores require access to the same data, having a larger cache minimizes data contention and reduces the need for frequent data transfers between cores. This efficient resource sharing improves performance and enables smoother multitasking.

Improved Gaming Performance

For gamers, a larger L3 cache can have a noticeable impact on gaming performance. Game data, such as textures and models, can be stored in the cache for quick retrieval, reducing load times and improving overall gameplay experience. The 45MB L3 cache of the Dell E5-2699V3 Processor ensures that game data is readily available, resulting in smoother and more immersive gaming sessions.

Optimized Virtual Machine Performance

Virtualization relies heavily on efficient resource allocation and fast data access. The large L3 cache of this processor allows for improved virtual machine performance by storing frequently accessed virtual disk files and data in the cache. This reduces latency and enhances the responsiveness of virtualized environments, resulting in more efficient resource utilization and better overall performance.

Enhanced Productivity for Content Creation

Content creation tasks, such as video editing or rendering, often involve working with large files and datasets. The 45MB L3 cache of the Dell E5-2699V3 Processor ensures that frequently accessed content remains readily available, reducing loading times and improving productivity. This enables content creators to work seamlessly with large projects and complex media files.

Smooth Operation for Database Applications

Database applications rely heavily on fast data retrieval to provide seamless operation and quick query responses. The large L3 cache size of this processor allows for efficient caching of frequently accessed database records, reducing query times and improving overall database performance. This ensures smooth operation even with large datasets and complex queries.

Qpi Speed: 9.6GT/S

The Dell E5-2699V3 Processor boasts an impressive QPI (QuickPath Interconnect) speed of 9.6GT/s. The QPI speed plays a crucial role in determining the efficiency and speed of communication between the processor and other system components, making it a vital consideration for users seeking optimal performance.

High-Speed Data Transfer

The QPI speed determines the rate at which data can be transferred between the processor and other components, such as memory modules or peripheral devices. With a QPI speed of 9.6GT/s, the Dell E5-2699V3 Processor enables rapid data transfer, reducing latency and improving overall system responsiveness.

Efficient Communication Between Processor Cores

The QPI speed also plays a significant role in enabling efficient communication between the multiple cores within the processor. As tasks are divided among cores, effective inter-core communication becomes crucial for maintaining performance and ensuring resource sharing. The high QPI speed of this processor facilitates smooth communication between cores, resulting in improved parallel processing capabilities and enhanced overall system performance.

Enhanced Scalability for Multi-Socket Systems

For users deploying multi-socket systems, where multiple processors are interconnected, the QPI speed is of utmost importance. It determines the efficiency and speed of communication between processors, allowing for seamless synchronization and resource sharing. The 9.6GT/s QPI speed of the Dell E5-2699V3 Processor enables enhanced scalability for multi-socket systems, ensuring efficient utilization of system resources and improved overall performance.

Accelerated IO Performance

Input/output (IO) operations involving storage devices, network interfaces, or graphics cards heavily rely on efficient data transfer rates. The high QPI speed of this processor ensures accelerated IO performance, reducing data transfer bottlenecks and improving the overall responsiveness of IO-intensive applications.

Improved Gaming Experience

For gamers, a high QPI speed can have a significant impact on gaming performance. It enables faster data transfer between the processor and graphics card, reducing input lag and ensuring smoother gameplay. The 9.6GT/s QPI speed of the Dell E5-2699V3 Processor enhances the overall gaming experience by providing seamless communication between the processor and graphics card.

Optimized Data Processing for Big Data Applications

Big data applications, which involve processing and analyzing massive datasets, rely heavily on efficient data transfer rates. The high QPI speed of this processor enables faster data movement between memory and processor cores, improving the performance of big data applications. This allows for quicker data processing, enhanced analytics, and streamlined decision-making.

Socket Type: FCLGA2011-3

The Dell E5-2699V3 Processor utilizes the FCLGA2011-3 socket type. The socket type is a critical consideration when selecting a processor as it determines compatibility with the motherboard and influences overall system performance.

Wide Motherboard Compatibility

The FCLGA2011-3 socket type used by the Dell E5-2699V3 Processor is widely supported by various server-grade motherboards. This ensures that users have a wide range of options when building or upgrading their systems. Whether you're looking to build a high-performance workstation or a powerful server, the FCLGA2011-3 socket type offers compatibility with numerous motherboards that cater to different needs and budgets.

Support for High-Speed Memory Modules

The socket type can impact memory compatibility and support. The FCLGA2011-3 socket allows for DDR4 memory modules, which offer higher speeds and improved data transfer rates compared to previous generations. This enables users to take full advantage of the latest memory technologies, resulting in improved system performance and responsiveness.

Scalability for Multi-Socket Systems

Certain socket types, like the FCLGA2011-3, support multi-socket configurations, where multiple processors are installed on a single motherboard. This allows for enhanced scalability and increased processing power for users who require high-performance computing capabilities. The FCLGA2011-3 socket type enables the Dell E5-2699V3 Processor to be used in multi-socket systems, providing users with the flexibility to scale their computing resources as needed.

Long-Term Compatibility

The choice of socket type also impacts long-term compatibility and upgradeability. Opting for a widely supported socket type like the FCLGA2011-3 ensures that users can easily upgrade their processors in the future without needing to replace the entire motherboard. This provides a cost-effective and convenient solution for users who want to enhance their system's performance as technology advances.

Support for Advanced Motherboard Features

The FCLGA2011-3 socket type is often found on high-end server-grade motherboards that offer a wide range of advanced features. These features may include additional expansion slots, built-in RAID controllers, advanced networking capabilities, and support for multiple GPUs. By utilizing the FCLGA2011-3 socket type, users can take advantage of these advanced motherboard features to meet their specific requirements and enhance system functionality.

Reliable Connection and Installation

The FCLGA2011-3 socket type ensures a secure and reliable connection between the processor and the motherboard. The Land Grid Array (LGA) design used in this socket type offers better contact reliability compared to other socket types. Additionally, the installation process for LGA processors is straightforward, ensuring a hassle-free experience for users.

Manufacturing Technology: 22NM

The Dell E5-2699V3 Processor is manufactured using the 22nm process technology. The manufacturing technology plays a vital role in determining the efficiency, power consumption, and overall performance of the processor.

Improved Energy Efficiency

The 22nm manufacturing technology allows for the creation of smaller and more power-efficient transistors. This results in improved energy efficiency for the processor, reducing power consumption and generating less heat. Lower power consumption not only contributes to a more sustainable computing experience but also helps reduce electricity costs and prolong battery life in mobile devices.

Enhanced Performance per Watt

The smaller transistors made possible by the 22nm manufacturing technology enable more transistors to be packed onto a single chip. This increased transistor density allows for improved performance per watt, meaning that the processor can deliver higher performance while consuming less power. The Dell E5-2699V3 Processor benefits from this efficiency, offering users a balance between performance and energy consumption.

Reduced Heat Generation

Smaller transistors and lower power consumption contribute to reduced heat generation in the processor. Heat can negatively impact system stability and performance, so minimizing heat output is crucial for maintaining optimal operating conditions. The 22nm manufacturing technology used in this processor ensures efficient heat dissipation, resulting in cooler operation and improved system longevity.

Optimized Overclocking Potential

The 22nm manufacturing technology also impacts the processor's overclocking potential. Overclocking involves pushing the processor beyond its default clock speed to achieve higher performance levels. Processors manufactured using smaller process technologies like 22nm tend to have better overclocking capabilities due to improved thermal characteristics and lower power consumption.

Support for Advanced Features

The 22nm manufacturing technology enables the integration of advanced features into the processor. These features may include improved instruction sets, security enhancements, or additional hardware accelerators. By utilizing the 22nm process technology, the Dell E5-2699V3 Processor provides support for advanced features that enhance system performance and functionality.

Compatibility with Current Motherboards

The 22nm manufacturing technology is widely adopted by motherboard manufacturers, ensuring compatibility between the Dell E5-2699V3 Processor and a wide range of current-generation motherboards. This compatibility allows users to easily upgrade their systems without requiring a motherboard replacement, providing a cost-effective and convenient solution for improving performance.

Power Consumption: 145W

The Dell E5-2699V3 Processor has a power consumption rating of 145W. Power consumption is an important consideration for users looking for energy-efficient solutions that help reduce operating costs and minimize environmental impact.

Energy Efficiency for Lower Operating Costs

With a power consumption rating of 145W, the Dell E5-2699V3 Processor strikes a balance between performance and energy efficiency. Lower power consumption not only reduces electricity costs but also contributes to a more sustainable computing experience. Whether you're running a personal workstation or a data center with multiple servers, opting for an energy-efficient processor like this one can have a significant long-term impact on operating costs.

Reduced Environmental Impact

By consuming less power, the Dell E5-2699V3 Processor contributes to a reduced carbon footprint. Energy-efficient processors help minimize the environmental impact associated with computing by reducing greenhouse gas emissions and conserving valuable resources. Choosing a processor with lower power consumption is an eco-friendly choice that aligns with sustainability goals and initiatives.

Heat Dissipation and Cooling Requirements

Lower power consumption translates to reduced heat generation, which has implications for system cooling requirements. Processors with higher power consumption tend to generate more heat, necessitating more robust cooling solutions. The 145W power consumption rating of