Intel Xeon 6252 BX806956252 24 Core 2.10 GHz Processor

Core Count: 24

Improved Multitasking and Performance

The Intel Xeon 6252 Processor is equipped with an impressive core count of 24, making it an ideal choice for users who require high-performance computing capabilities. The abundance of cores allows for improved multitasking, enabling users to run multiple applications and processes simultaneously without experiencing a significant decrease in performance.

Efficient Resource Allocation

With 24 cores at their disposal, users can allocate resources more efficiently, ensuring that each task receives the necessary computing power for optimal performance. This feature is particularly beneficial for professionals in fields such as rendering, video editing, and scientific research, where resource-intensive applications demand substantial processing power.

Enhanced Parallel Processing

The large number of cores in the Intel Xeon 6252 Processor enables efficient parallel processing. This means that tasks can be divided and executed simultaneously across multiple cores, significantly reducing processing time. Users can experience faster data analysis, simulations, and complex calculations, resulting in increased productivity and faster turnaround times.

Scalability and Future-Proofing

The 24-core configuration of this processor provides scalability for future growth. As software continues to evolve and demand higher core counts to take advantage of parallel processing capabilities, users can rest assured that their system will be able to handle the increasing workload. Investing in a processor with a high core count ensures long-term viability and minimizes the need for immediate upgrades.

Base Clock Speed: 2.10 GHz

Efficient Task Execution

The Intel Xeon 6252 Processor boasts a base clock speed of 2.10 GHz, which determines the rate at which the processor executes instructions. A higher base clock speed allows for faster task execution, resulting in reduced wait times and improved overall system responsiveness.

Smooth Application Performance

By operating at a higher frequency, the processor can quickly process instructions, leading to smoother application performance. Users can enjoy seamless multitasking, faster program loading times, and smoother graphics rendering, ensuring a more enjoyable computing experience.

Responsive Gaming Experience

Gamers will appreciate the higher base clock speed as it directly impacts gaming performance. The processor's ability to execute instructions at a faster rate translates into smoother gameplay, reduced input lag, and improved frame rates. Whether engaging in fast-paced action games or exploring immersive virtual worlds, the Intel Xeon 6252 Processor delivers the speed necessary for an immersive gaming experience.

Efficient Virtualization

The high base clock speed of this processor is particularly advantageous for virtualization environments. Virtual machines require significant processing power to run smoothly, and a higher base clock speed ensures efficient execution of virtualized workloads. Users can create and manage multiple virtual machines with ease, without experiencing performance bottlenecks.

Cache Size: 36 MB

Faster Data Access

The Intel Xeon 6252 Processor features a generous cache size of 36 MB, which plays a crucial role in improving system performance. The cache acts as a temporary storage space for frequently accessed data, allowing the processor to quickly retrieve information without relying on slower system memory.

Reduced Memory Latency

A larger cache size reduces memory latency by storing frequently accessed data closer to the processor cores. This eliminates the need for the processor to fetch data from external memory sources, resulting in faster execution times. Users can experience snappier application responsiveness and faster data retrieval, leading to increased productivity.

Improved Gaming Performance

Gamers can benefit from the larger cache size as it allows for quicker access to game assets and textures. This results in reduced loading times and smoother gameplay, as the processor can retrieve necessary game data without delay. Whether exploring vast open worlds or engaging in fast-paced multiplayer battles, the Intel Xeon 6252 Processor ensures an immersive and uninterrupted gaming experience.

Enhanced Virtual Machine Performance

In virtualized environments, a larger cache size can significantly enhance performance. Virtual machines often share resources, and a larger cache size ensures that frequently accessed data remains readily available for all virtualized workloads. This improves overall system efficiency and reduces resource contention, resulting in smoother operation of virtual machines.

Max Clock Speed: 3.70 GHz

Boosted Performance for Demanding Tasks

The Intel Xeon 6252 Processor offers a maximum clock speed of 3.70 GHz, which provides a significant performance boost for demanding tasks. When workloads require additional processing power, the processor can dynamically increase its clock speed to deliver superior performance.

Seamless Multithreading

The higher max clock speed allows for seamless multithreading, enabling the processor to handle multiple threads simultaneously with increased efficiency. Tasks that require intense computational power, such as rendering complex graphics or running simulations, can benefit from the processor's ability to maintain high clock speeds across multiple cores.

Accelerated Single-Threaded Performance

Applications that rely heavily on single-threaded performance, such as certain gaming titles or software with limited multithreading capabilities, can take advantage of the processor's higher max clock speed. The increased frequency allows for faster execution of single-threaded instructions, resulting in improved performance and responsiveness.

Optimized Real-Time Workloads

In real-time applications where immediate response is crucial, such as live streaming or video editing, the higher max clock speed can significantly enhance performance. The processor's ability to quickly process instructions ensures minimal latency, allowing users to work with time-sensitive data without experiencing delays or dropped frames.

Socket Type: Socket 3647

Compatibility and Upgradability

The Intel Xeon 6252 Processor utilizes Socket 3647, a widely supported socket type in the server and workstation markets. This ensures compatibility with a variety of motherboards and allows users to easily upgrade their existing systems without the need for extensive hardware changes.

Flexible System Configuration

Socket 3647 provides flexibility in system configuration, allowing users to choose from a wide range of compatible motherboards and other components. This flexibility enables users to tailor their system to meet specific requirements, whether it be for high-performance computing, data analytics, or virtualization.

Scalability for Future Expansion

Socket 3647 supports a range of processors with varying core counts and performance levels. This scalability allows users to start with a lower-end processor, such as the Intel Xeon 6252 Processor, and easily upgrade to a more powerful processor in the future as their needs grow. This future-proofing ensures that the system can adapt to changing workload demands without requiring a complete system overhaul.

Manufacturing Technology: 14 NM

Efficient Power Consumption

The Intel Xeon 6252 Processor is built using a 14 nm manufacturing technology, which offers several benefits, including improved power efficiency. The smaller transistor size allows for more transistors to be packed onto the processor die, resulting in increased performance while minimizing power consumption.

Reduced Heat Generation

The 14 nm manufacturing technology enables the processor to generate less heat during operation. This is important in environments where maintaining optimal operating temperatures is critical, such as data centers or systems with limited cooling capabilities. The reduced heat generation not only prolongs the lifespan of the processor but also contributes to a more stable and reliable system overall.

Lower Energy Costs

The improved power efficiency of the Intel Xeon 6252 Processor translates into lower energy costs. Systems equipped with this processor consume less electricity, resulting in reduced operational expenses for businesses and individuals. Additionally, the lower power consumption contributes to a greener and more environmentally friendly computing solution.

Enhanced Battery Life

In mobile devices such as laptops or workstations, the 14 nm manufacturing technology plays a crucial role in extending battery life. By consuming less power, the processor allows for longer usage on a single charge, enabling users to work or play without interruptions and reducing the need for frequent recharging.

Power Consumption: 150 W

High Performance with Optimal Power Usage

The Intel Xeon 6252 Processor has a power consumption rating of 150 W, striking a balance between performance and power efficiency. With this power rating, users can expect excellent processing power while ensuring that their system operates within acceptable power limits.

Reliable Performance in Demanding Workloads

The higher power consumption allows the Intel Xeon 6252 Processor to deliver reliable performance even in demanding workloads. Resource-intensive tasks such as rendering complex graphics, running simulations, or analyzing large datasets can be executed efficiently without compromising system stability.

Efficient Cooling Solutions

While the 150 W power consumption rating may require adequate cooling solutions, it also means that users have a wide range of cooling options available to maintain optimal operating temperatures. From air cooling to liquid cooling, users can choose the most suitable solution based on their specific requirements and system configuration.

Optimized Power Management

The power consumption rating of the Intel Xeon 6252 Processor allows for effective power management. Operating systems and software can leverage this information to optimize power usage, ensuring that power is allocated efficiently to different tasks and reducing unnecessary power wastage.