Dell DT3H9 Xeon Gold 6152 22-Core 2.1GHz Processor Only

Cores

The Dell DT3H9 Processor is equipped with an impressive 22 cores, making it a powerhouse for multitasking and demanding applications. With each core capable of executing multiple tasks simultaneously, users can experience enhanced efficiency and productivity. Whether you are running complex simulations, rendering high-quality graphics, or processing large datasets, the abundance of cores ensures smooth performance without any lag or slowdown.

Improved Performance

Having 22 cores allows the processor to handle intensive tasks with ease. It provides the necessary processing power to handle resource-intensive software and applications, resulting in faster and more responsive performance. Whether you are a professional who relies on software for video editing, animation, or 3D modeling, or a gamer who wants a seamless gaming experience, the abundance of cores ensures that the processor can handle the workload without any compromises in speed or quality.

Efficient Multitasking

The multiple cores allow for efficient multitasking, enabling users to run multiple applications simultaneously without experiencing any significant performance degradation. This is particularly beneficial for professionals who need to have multiple software applications open at once or individuals who enjoy streaming media while performing other tasks. The Dell DT3H9 Processor's 22 cores ensure that you can seamlessly switch between different applications without any noticeable lag.

Optimized Resource Allocation

The 22 cores in the processor allow for optimized resource allocation. Each core can handle specific tasks, ensuring that resources are distributed efficiently and effectively. This means that different applications can utilize separate cores without impacting each other's performance. The result is a smooth and uninterrupted user experience, even when running resource-intensive programs.

Base Speed

The Dell DT3H9 Processor features a base speed of 2.1GHz, providing users with a solid foundation for their computing needs. The base speed determines the processor's starting clock frequency, which affects the overall performance and responsiveness of the system.

Snappy Performance

With a base speed of 2.1GHz, the processor delivers snappy performance, allowing users to navigate through applications quickly and effortlessly. This is especially important for tasks that require immediate response times, such as opening programs, launching web browsers, or accessing files. The higher base speed ensures that these tasks are executed swiftly, saving valuable time and improving overall user experience.

Smooth Multitasking

A higher base speed enables smoother multitasking by providing a solid foundation for running multiple applications simultaneously. Whether you are juggling between different software programs or handling numerous browser tabs, the 2.1GHz base speed ensures that the processor can handle the workload efficiently without any noticeable delays or hiccups.

Enhanced Responsiveness

The 2.1GHz base speed contributes to enhanced system responsiveness, making interactions with the computer feel more fluid and seamless. From navigating menus and scrolling through documents to executing commands and performing system operations, the higher base speed ensures that every action is executed promptly and without any perceptible lag.

L3 Cache

The Dell DT3H9 Processor boasts a substantial L3 cache of 30.25MB, which plays a crucial role in improving system performance by storing frequently accessed data closer to the processor. This cache acts as a high-speed buffer between the processor and main memory, resulting in faster data retrieval and accelerated overall system performance.

Reduced Data Latency

With a large L3 cache of 30.25MB, the processor significantly reduces data latency by storing frequently accessed data closer to the processing cores. This means that the processor can quickly retrieve data from the cache instead of waiting for it to be fetched from the slower main memory. The result is faster data access, reduced delays, and improved overall system performance.

Improved Application Performance

The substantial L3 cache plays a vital role in improving application performance. By storing frequently accessed data in the cache, the processor can quickly retrieve the necessary information, resulting in faster application load times, smoother transitions between different tasks, and improved responsiveness. Whether you are working with large datasets, editing high-resolution images, or running complex simulations, the L3 cache ensures that the processor can efficiently access the required data without any bottlenecks.

Seamless Multitasking

The large L3 cache enhances multitasking capabilities by storing data from multiple applications in its high-speed buffer. This allows the processor to switch between different tasks seamlessly without experiencing significant performance degradation. Whether you are switching between software applications, browsing the web while running resource-intensive programs, or performing other multitasking activities, the L3 cache ensures a smooth and uninterrupted user experience.

Upi Speed

The Dell DT3H9 Processor features an impressive Upi Speed of 10.4GT/s (GigaTransfers per second), which determines how fast data can be transferred between processors in a multi-processor system. This high Upi Speed enables efficient communication and collaboration between multiple processors, resulting in enhanced system performance.

Improved Scalability

The high Upi Speed of 10.4GT/s enables efficient scalability in multi-processor systems. It allows multiple processors to work together seamlessly by facilitating fast and reliable communication between them. This is particularly beneficial for users who require high-performance computing for tasks such as scientific research, data analysis, or server applications. The high Upi Speed ensures that the processors can collaborate effectively, resulting in improved system performance and faster execution of complex tasks.

Enhanced Data Sharing

The high Upi Speed enables efficient data sharing between processors, enabling them to exchange information quickly and seamlessly. This is particularly important in applications that require real-time data processing or parallel computing, where multiple processors need to work together to achieve optimal performance. With a Upi Speed of 10.4GT/s, the Dell DT3H9 Processor ensures that data can be shared efficiently between processors, minimizing bottlenecks and maximizing overall system performance.

Optimized Workloads Distribution

The high Upi Speed ensures efficient workload distribution in multi-processor systems. It allows tasks to be divided among processors effectively, ensuring that each processor receives an appropriate workload based on its capabilities. This results in balanced utilization of resources, improved system efficiency, and faster completion of tasks. Whether you are running multiple virtual machines, deploying server applications, or performing distributed computing, the high Upi Speed of the Dell DT3H9 Processor ensures optimal workload distribution and efficient collaboration between processors.

Socket

The Dell DT3H9 Processor is equipped with the FCLGA3647 socket, which determines how the processor connects to the motherboard. The FCLGA3647 socket provides a secure and reliable connection, ensuring smooth communication between the processor and other hardware components.

Compatibility

The FCLGA3647 socket offers compatibility with a wide range of motherboards specifically designed for this socket type. This ensures that users have a variety of options when it comes to selecting a compatible motherboard for their system. Whether you are building a new system or upgrading an existing one, the FCLGA3647 socket provides flexibility and ensures that the Dell DT3H9 Processor can be seamlessly integrated into your system.

Secure Connection

The FCLGA3647 socket provides a secure and reliable connection between the processor and the motherboard. This ensures that the processor is firmly attached and properly aligned, minimizing the risk of connectivity issues or damage during installation or operation. The secure connection also ensures stable communication between the processor and other hardware components, resulting in improved system stability and performance.

Future-Proofing

By using the FCLGA3647 socket, Dell has ensured future-proofing for the DT3H9 Processor. This socket type allows for potential upgrades to newer processor models without requiring a motherboard replacement. As technology advances and new processors are released, users can take advantage of improved performance and features by simply swapping out their existing processor with a compatible one. This provides longevity to your system and allows for easy upgrades in the future.

Nm Technology

The Dell DT3H9 Processor utilizes 14nm technology, which refers to the size of the transistors used in manufacturing the processor. The smaller transistor size offers several benefits, including improved performance, energy efficiency, and heat dissipation.

Increased Performance

The 14nm technology allows for more transistors to be packed into a smaller space, resulting in increased processing power and improved performance. The smaller transistors enable faster switching speeds, reducing delays and improving overall system responsiveness. Whether you are running demanding applications, gaming, or performing complex calculations, the 14nm technology ensures that the processor can handle the workload efficiently without any compromises in speed or quality.

Energy Efficiency

The use of 14nm technology enhances energy efficiency by reducing power consumption. The smaller transistors require less power to operate, resulting in lower energy consumption and reduced heat generation. This is particularly beneficial for individuals concerned about energy costs or environmental impact. The Dell DT3H9 Processor's 14nm technology allows for a balance between performance and energy efficiency, ensuring that users can enjoy powerful computing capabilities while minimizing their carbon footprint.

Improved Heat Dissipation

The smaller transistor size in the 14nm technology enables better heat dissipation. The reduced size allows heat to be expelled more efficiently, preventing excessive heat buildup and potential thermal throttling. This ensures that the processor can maintain optimal operating temperatures, resulting in improved stability and longevity. Whether you are pushing the processor to its limits or operating in a high-temperature environment, the 14nm technology ensures that heat is efficiently dissipated, reducing the risk of performance degradation or hardware damage.

Power Consumption

The Dell DT3H9 Processor has a power consumption of 140W, which refers to the amount of electrical power required for the processor to operate at its maximum performance level. Power consumption is an essential consideration for both energy efficiency and system cooling.

Energy Efficiency

The 140W power consumption ensures a balance between performance and energy efficiency. While higher-performance processors may have higher power consumption, the Dell DT3H9 Processor strikes a balance between delivering robust computing capabilities and minimizing energy usage. This is especially important for individuals concerned about energy costs or environmental impact, as it allows for efficient operation without compromising on performance.

Effective Cooling

A higher power consumption of 140W necessitates effective cooling solutions to prevent overheating and maintain optimal operating temperatures. Dell has designed the DT3H9 Processor with efficient cooling mechanisms to manage the heat generated during operation. This ensures that the processor can operate at its maximum performance level without experiencing thermal throttling or performance degradation due to excessive heat.

System Stability

The 140W power consumption ensures system stability by providing the necessary electrical power for the processor to operate reliably and consistently. Without sufficient power, the processor may not be able to perform at its full potential, resulting in reduced performance or system instability. The Dell DT3H9 Processor's power consumption of 140W ensures that users can rely on stable and consistent performance, even during demanding tasks or prolonged usage.