Dell 338-BDDR Intel Xeon E5 2690v2 10 Core Processor 3.0GHz 25MB L3 Cache

Cores

The Dell 338-BDDR Processor is equipped with an impressive 10 cores, making it a powerhouse when it comes to processing capabilities. This feature sets it apart from other processors in its class and offers users a host of benefits and advantages.

Increased Performance

With 10 cores at its disposal, the Dell 338-BDDR Processor can handle multiple tasks and processes simultaneously, resulting in significantly improved performance. Whether you're running resource-intensive software or multitasking with various applications, this processor ensures smooth and efficient operation.

Enhanced Multithreading

The high core count of the Dell 338-BDDR Processor facilitates efficient multithreading. Multithreading allows the processor to execute multiple threads concurrently, which is especially beneficial for tasks that require parallel processing, such as video editing, rendering, and scientific simulations. With 10 cores, this processor excels in handling complex multithreaded workloads.

Optimized Gaming Experience

Gamers can also benefit from the 10 cores of the Dell 338-BDDR Processor. Many modern games are designed to take advantage of multiple cores, allowing for improved graphics rendering, faster load times, and smoother gameplay. With this processor, you can enjoy a seamless gaming experience without worrying about performance bottlenecks.

Efficient Virtualization

Virtualization has become increasingly popular in various industries, allowing for the creation of virtual machines that can run multiple operating systems simultaneously. The 10 cores of the Dell 338-BDDR Processor enable efficient virtualization by providing ample resources for each virtual machine. This makes it an ideal choice for professionals who rely on virtualization for their work.

Future-Proofing

Investing in a processor with a high core count like the Dell 338-BDDR ensures that your system is well-equipped to handle future advancements in software and technology. As applications become more demanding and make better use of multiple cores, having 10 cores at your disposal will keep your system running smoothly for years to come.

Conclusion

The 10 cores of the Dell 338-BDDR Processor offer users a significant performance boost, whether it's for demanding tasks, gaming, virtualization, or future-proofing their system. With its exceptional multitasking capabilities and efficient resource allocation, this processor is a top choice for those seeking optimal performance and versatility.

Base Clock Speed

The Dell 338-BDDR Processor boasts a base clock speed of 3.0GHz, making it a formidable option for users who require fast and efficient processing power. This feature plays a crucial role in determining the overall performance and responsiveness of the processor, providing several benefits for users.

Swift Task Execution

A high base clock speed ensures that tasks are executed quickly and efficiently. The 3.0GHz base clock speed of the Dell 338-BDDR Processor allows for rapid processing of instructions, resulting in snappy system performance. Whether you're running complex software or everyday applications, this processor can handle it with ease.

Smooth Multitasking

Multitasking is a common practice for many users, whether it's working on multiple projects simultaneously or running various applications at once. The 3.0GHz base clock speed of the Dell 338-BDDR Processor ensures that multitasking is seamless and responsive. Switching between tasks becomes effortless, minimizing any lag or delays.

Improved Gaming Experience

Gamers can also benefit from the high base clock speed of the Dell 338-BDDR Processor. Many games rely heavily on the processor's speed to render graphics, calculate physics, and perform other computationally intensive tasks. With a base clock speed of 3.0GHz, this processor provides the necessary horsepower for a smooth and immersive gaming experience.

Efficient Content Creation

Content creators often deal with resource-intensive software, such as video editing or 3D rendering applications. The 3.0GHz base clock speed of the Dell 338-BDDR Processor ensures that these tasks are completed swiftly, reducing rendering times and allowing for more efficient workflow. This processor empowers content creators to bring their ideas to life with minimal waiting time.

Quick System Responsiveness

A high base clock speed contributes to overall system responsiveness. Whether it's launching applications, opening files, or navigating through the operating system, the Dell 338-BDDR Processor's 3.0GHz base clock speed ensures that your system reacts promptly to your commands. This enhances user experience and productivity.

Conclusion

The 3.0GHz base clock speed of the Dell 338-BDDR Processor delivers swift task execution, smooth multitasking, improved gaming performance, efficient content creation, and quick system responsiveness. With its impressive speed, this processor is an excellent choice for users who demand high-performance computing and seamless user experience.

Cache

The Dell 338-BDDR Processor features a substantial 25MB L3 cache, which plays a vital role in enhancing its overall performance and efficiency. The cache acts as a high-speed storage buffer that stores frequently accessed data, providing numerous benefits for users in terms of speed, responsiveness, and multitasking capabilities.

Fast Data Access

The large L3 cache of the Dell 338-BDDR Processor allows for faster data access. Frequently accessed data is stored in the cache, which can be retrieved almost instantaneously. This reduces the need to fetch data from slower system memory, resulting in improved performance and reduced latency.

Improved Application Responsiveness

Applications can benefit greatly from the large L3 cache of the Dell 338-BDDR Processor. As data is readily available in the cache, applications can access it quickly, leading to enhanced responsiveness. Whether it's launching applications, loading files, or switching between tasks, the processor's cache ensures a smooth and seamless user experience.

Efficient Multitasking

The 25MB L3 cache facilitates efficient multitasking by storing data from multiple applications simultaneously. This reduces the need to constantly fetch data from system memory, allowing for smoother transitions between tasks and minimizing any potential slowdowns caused by data retrieval.

Enhanced Gaming Performance

Gamers can also benefit from the large L3 cache of the Dell 338-BDDR Processor. Games often require fast access to textures, models, and other game assets. With a substantial cache size, this processor can store a significant amount of game data, reducing loading times and improving overall gaming performance.

Efficient Content Creation

Content creators dealing with resource-intensive software can take advantage of the Dell 338-BDDR Processor's large L3 cache. Video editing, 3D rendering, and other content creation tasks often involve accessing large datasets. With a substantial cache, this processor minimizes the time required to retrieve data, allowing for more efficient content creation workflows.

Conclusion

The 25MB L3 cache of the Dell 338-BDDR Processor ensures fast data access, improved application responsiveness, efficient multitasking, enhanced gaming performance, and efficient content creation. With its generous cache size, this processor is a reliable choice for users who require speed, responsiveness, and seamless multitasking capabilities.

Socket

The Dell 338-BDDR Processor features the FCLGA 2011 socket, which plays a crucial role in determining compatibility and connectivity options. The socket type determines how the processor interfaces with the motherboard and affects various aspects of system performance and functionality.

Compatibility and Upgradability

The FCLGA 2011 socket of the Dell 338-BDDR Processor ensures compatibility with motherboards designed to support this socket type. This allows for easy integration into existing systems or future upgrades. Users can confidently choose motherboards that support FCLGA 2011 knowing that this processor will be compatible.

Connectivity Options

The socket type also determines the connectivity options available to users. The FCLGA 2011 socket provides support for various connectivity standards, including USB, SATA, and PCIe. This enables users to connect a wide range of peripherals, storage devices, and expansion cards to their system for enhanced functionality and versatility.

Reliable Performance

The FCLGA 2011 socket ensures a secure and reliable connection between the processor and motherboard. This eliminates any potential performance issues caused by unstable connections or poor electrical contacts. Users can rely on the Dell 338-BDDR Processor's FCLGA 2011 socket for consistent performance and optimal system stability.

Overclocking Potential

Overclocking enthusiasts can also benefit from the FCLGA 2011 socket of the Dell 338-BDDR Processor. This socket type is often associated with motherboards that offer robust overclocking capabilities. Users can push the processor beyond its stock speeds to achieve higher performance levels, provided they have a compatible motherboard and adequate cooling.

Server and Workstation Support

The FCLGA 2011 socket is commonly found on server and workstation motherboards. This makes the Dell 338-BDDR Processor an excellent choice for users who require high-performance computing for demanding server applications or professional workstations. The FCLGA 2011 socket ensures compatibility with these specialized systems.

Conclusion

The FCLGA 2011 socket of the Dell 338-BDDR Processor offers compatibility, connectivity options, reliable performance, overclocking potential, and support for server and workstation systems. With its versatile socket type, this processor provides users with flexibility and future-proofing, ensuring optimal performance and functionality.

Manufacturing Technology

The Dell 338-BDDR Processor is built using the advanced 22nm manufacturing technology, which brings several benefits in terms of performance, power efficiency, and thermal management. The manufacturing technology employed in a processor significantly impacts its overall capabilities and user experience.

Improved Performance

The 22nm manufacturing technology allows for the creation of smaller transistors with higher densities. This results in more transistors being packed onto the same-sized die, increasing the processor's overall performance. The Dell 338-BDDR Processor benefits from this technology by delivering faster speeds, improved instruction execution, and enhanced computational capabilities.

Power Efficiency

A processor built using the 22nm manufacturing technology consumes less power compared to processors manufactured using older technologies. Smaller transistors require less energy to switch on and off, reducing overall power consumption. This translates to lower electricity bills, longer battery life for laptops, and a smaller environmental footprint.

Thermal Management

The smaller transistors and higher transistor densities offered by the 22nm manufacturing technology also contribute to improved thermal management. With more transistors packed into a smaller space, heat dissipation becomes more efficient. This allows the Dell 338-BDDR Processor to operate at lower temperatures, reducing the need for aggressive cooling solutions and ensuring a stable and reliable computing experience.

Overclocking Potential

The advanced manufacturing technology employed in the Dell 338-BDDR Processor enhances its overclocking potential. Smaller transistors and improved thermal management enable higher clock speeds while maintaining stability. Overclocking enthusiasts can take full advantage of this processor's capabilities to achieve even higher performance levels when paired with a compatible motherboard and adequate cooling.

Future-Proofing

Choosing a processor built using advanced manufacturing technology like the 22nm process ensures future-proofing. As software and applications become more demanding, having a processor capable of meeting those demands is crucial. The Dell 338-BDDR Processor's 22nm manufacturing technology ensures that it remains relevant and capable of handling future advancements in computing.

Conclusion

The 22nm manufacturing technology of the Dell 338-BDDR Processor brings improved performance, power efficiency, thermal management, overclocking potential, and future-proofing. This processor's advanced manufacturing process ensures that users can enjoy enhanced performance while minimizing power consumption and heat generation, resulting in a superior computing experience.

Power Consumption

The Dell 338-BDDR Processor boasts a power consumption rating of 130w, making it an efficient choice for users who prioritize energy efficiency without compromising on performance. The power consumption of a processor directly affects electricity usage, heat generation, and overall system efficiency.

Reduced Electricity Bills

A processor with lower power consumption, such as the Dell 338-BDDR, helps reduce electricity bills. By consuming less power during operation, this processor minimizes the energy drawn from the electrical grid. Over time, this can lead to significant cost savings for individuals and businesses alike.

Environmental Impact

Choosing a processor with lower power consumption contributes to reducing the environmental impact. By consuming less energy, this processor reduces carbon emissions associated with electricity generation. This makes it a greener and more sustainable choice for users concerned about their ecological footprint.

Heat Management

The 130w power consumption rating of the Dell 338-BDDR Processor ensures efficient heat management. Lower power consumption results in less heat being generated during operation. This reduces the strain on cooling systems and allows for quieter operation. Additionally, lower heat generation prolongs the lifespan of components and ensures system stability.

Compatibility with Power-Limited Systems

Systems with limited power supplies or small form factors can benefit from the Dell 338-BDDR Processor's 130w power consumption rating. This processor's lower power requirements allow it to operate within the specified limits of such systems without compromising on performance, making it an ideal choice for compact or energy-constrained setups.

Efficient Cooling Solutions

The lower power consumption of the Dell 338-BDDR Processor allows for more efficient cooling solutions. Cooling systems, such as fans and heatsinks, can operate at lower speeds and noise levels while still maintaining optimal temperatures. This improves user experience by providing a quieter computing environment without sacrificing cooling performance.

Conclusion

The 130w power consumption rating of the Dell 338-BDDR Processor offers reduced electricity bills, a smaller environmental impact, efficient heat management, compatibility with power-limited systems, and efficient cooling solutions. This processor's energy efficiency ensures cost savings, environmental responsibility, and a pleasant computing experience.