HPE P02491-B21 Intel Xeon 4208 2.1GHz 11MB Smart Cache 9.6GT/S UPI GA3647 14NM 85W Processor

Clock Speed: 2.1GHz

The clock speed of a processor is a crucial factor in determining its performance. In the case of the HPE Intel Xeon 4208 Processor, it boasts an impressive clock speed of 2.1GHz. This means that the processor is capable of executing 2.1 billion cycles per second, allowing for faster data processing and improved overall performance.

Enhanced Performance

A higher clock speed directly translates to enhanced performance. With a clock speed of 2.1GHz, the HPE Intel Xeon 4208 Processor can handle demanding tasks with ease. Whether you're running resource-intensive applications or performing complex calculations, this processor ensures smooth and efficient operations.

Improved Multitasking

The clock speed plays a vital role in multitasking capabilities. A higher clock speed enables the processor to quickly switch between different tasks, allowing for seamless multitasking without any noticeable lag or slowdown. With the HPE Intel Xeon 4208 Processor's clock speed of 2.1GHz, you can effortlessly handle multiple applications simultaneously, boosting your productivity.

Optimized Gaming Experience

Gamers often crave high-performance processors to ensure smooth gameplay and reduced latency. The clock speed of 2.1GHz in the HPE Intel Xeon 4208 Processor delivers exceptional gaming performance. It allows for faster rendering of graphics, smoother frame rates, and reduced input lag – providing an immersive gaming experience without any stuttering or delays.

Efficient Data Processing

The high clock speed of the HPE Intel Xeon 4208 Processor enables efficient data processing, making it ideal for data-intensive applications and workloads. Whether you're working with large datasets, performing complex simulations, or running virtual machines, this processor can handle the workload with ease. It ensures that data is processed quickly and accurately, saving you valuable time.

Seamless Content Creation

If you're involved in content creation tasks such as video editing, 3D modeling, or rendering, the clock speed of the HPE Intel Xeon 4208 Processor is a game-changer. The 2.1GHz clock speed allows for faster rendering and encoding of multimedia files, reducing the time required to complete projects. It enables you to create high-quality content without experiencing frustrating delays.

Effortless Software Compilation

Software developers often engage in compiling code, which can be a time-consuming process. The clock speed of the HPE Intel Xeon 4208 Processor significantly speeds up software compilation, reducing the waiting time between code changes and testing. This feature proves invaluable for developers who want to iterate quickly and efficiently.

Smooth Virtualization

The clock speed of the HPE Intel Xeon 4208 Processor ensures smooth virtualization performance. Whether you're running multiple virtual machines or implementing virtualized environments, the processor's high clock speed enables seamless execution of virtualized workloads. This results in improved server consolidation, reduced latency, and enhanced overall virtualization performance.

Fast Data Analysis

Data analysis tasks often require substantial processing power. The HPE Intel Xeon 4208 Processor's clock speed of 2.1GHz enables rapid data analysis, allowing for quick insights and actionable results. With this processor, you can efficiently process large datasets and perform complex calculations, empowering you to make informed business decisions in a timely manner.

Smart Cache: 11MB

The smart cache is an essential feature of modern processors, and the HPE Intel Xeon 4208 Processor excels in this aspect with its generous 11MB smart cache. The smart cache acts as a temporary storage space for frequently accessed data, improving overall performance by reducing memory latency and increasing data access speed.

Reduced Memory Latency

The presence of a sizable smart cache, such as the 11MB in the HPE Intel Xeon 4208 Processor, significantly reduces memory latency. As frequently accessed data is stored in the cache, the processor can quickly retrieve it without having to access the main memory. This results in faster data access and improved overall system responsiveness.

Improved Application Performance

The smart cache plays a crucial role in enhancing application performance. By storing frequently used data closer to the processor, the HPE Intel Xeon 4208 Processor can quickly retrieve it, reducing the time required for data fetches. This leads to improved application responsiveness and faster execution times, resulting in a smoother user experience.

Efficient Multitasking

A larger smart cache enables efficient multitasking capabilities. With an 11MB smart cache, the HPE Intel Xeon 4208 Processor can store a significant amount of frequently accessed data from multiple applications. This allows for seamless switching between tasks, as the processor can quickly retrieve the necessary data from the cache without accessing the main memory, minimizing potential slowdowns or delays.

Enhanced Virtualization Performance

Virtualized environments heavily rely on efficient memory management. The 11MB smart cache of the HPE Intel Xeon 4208 Processor plays a vital role in improving virtualization performance. By storing frequently accessed virtual machine data in the cache, it reduces latency and boosts overall virtualization efficiency. This results in smoother virtual machine operations and improved server consolidation.

Accelerated Gaming Experience

Gaming requires quick access to game data to ensure smooth gameplay. The 11MB smart cache of the HPE Intel Xeon 4208 Processor helps accelerate the gaming experience by storing frequently accessed game assets in the cache. This reduces loading times, minimizes in-game stuttering, and ensures a seamless gaming performance, ultimately enhancing the overall gaming experience.

Efficient Content Creation

Content creation tasks often involve working with large files and multimedia assets. The 11MB smart cache of the HPE Intel Xeon 4208 Processor enables efficient content creation by storing frequently accessed project files, reducing retrieval times, and improving rendering speeds. This allows for faster content creation and editing, enabling professionals to work more efficiently and meet tight deadlines.

Smooth Video Editing

Video editing requires quick access to large video files and assets. The 11MB smart cache in the HPE Intel Xeon 4208 Processor ensures smooth video editing performance by storing frequently accessed video data in the cache. This reduces the time required for retrieving and processing video files, resulting in faster rendering times and seamless editing workflows.

Seamless Rendering

Rendering complex scenes, whether for 3D modeling or visual effects, demands substantial processing power. The 11MB smart cache of the HPE Intel Xeon 4208 Processor assists in seamless rendering by storing frequently accessed rendering data in the cache. This reduces latency and speeds up rendering times, allowing professionals to complete rendering-intensive tasks more efficiently.

Bus Speed: 9.6GT/S UPI

The bus speed is a critical factor that determines how quickly data can be transferred between different components of a computer system. The HPE Intel Xeon 4208 Processor stands out with its impressive bus speed of 9.6GT/S UPI (Ultra Path Interconnect), ensuring efficient communication between the processor and other system components.

Enhanced System Responsiveness

A higher bus speed directly translates to enhanced system responsiveness. With a bus speed of 9.6GT/S UPI, the HPE Intel Xeon 4208 Processor facilitates faster data transfer between the processor, memory, and other connected devices. This results in reduced latency, quicker application launches, and improved overall system performance, providing a seamless user experience.

Optimized Data Transfer

The high bus speed of 9.6GT/S UPI enables optimized data transfer within the computer system. Whether you're transferring large files, accessing data from storage devices, or performing data-intensive tasks, this processor ensures speedy data transfer between components. This reduces waiting times and allows for smooth and uninterrupted workflow.

Efficient Communication with Memory

The bus speed plays a crucial role in establishing efficient communication between the processor and memory. The 9.6GT/S UPI bus speed of the HPE Intel Xeon 4208 Processor ensures that data can be quickly transferred to and from the memory module, reducing memory access latency. This results in improved overall system performance, especially when working with memory-intensive applications or large datasets.

Improved Gaming Performance

Gaming relies heavily on efficient communication between the processor, graphics card, and memory. The 9.6GT/S UPI bus speed of the HPE Intel Xeon 4208 Processor enhances gaming performance by facilitating seamless data transfer between these components. This reduces input lag, improves frame rates, and ensures a smooth gaming experience without any noticeable delays or stuttering.

Accelerated Data Analysis

Data analysis tasks often involve transferring large volumes of data between the processor and storage devices. The 9.6GT/S UPI bus speed of the HPE Intel Xeon 4208 Processor accelerates data analysis by enabling fast data transfer, reducing the time required for data retrieval and processing. This enables data analysts to perform complex calculations and extract insights more efficiently.

Efficient Virtualization

The bus speed plays a crucial role in virtualization performance. With a bus speed of 9.6GT/S UPI, the HPE Intel Xeon 4208 Processor ensures efficient communication between virtual machines, the host operating system, and memory. This results in improved virtual machine performance, reduced latency, and enhanced overall virtualization efficiency, making it an ideal choice for virtualized environments.

Seamless Server Consolidation

Server consolidation aims to maximize resource utilization by running multiple virtual machines on a single physical server. The high bus speed of 9.6GT/S UPI in the HPE Intel Xeon 4208 Processor facilitates seamless server consolidation by enabling efficient communication between virtual machines and the underlying hardware. This allows businesses to optimize their server infrastructure while ensuring smooth and reliable operations.

Efficient Cloud Computing

Cloud computing relies on efficient communication between various components within a data center. The 9.6GT/S UPI bus speed of the HPE Intel Xeon 4208 Processor enables efficient data transfer between cloud servers, storage systems, and networking equipment. This results in enhanced cloud computing performance, faster response times, and improved overall efficiency of cloud-based services.

Socket Type: GA3647

The socket type refers to the physical connection interface between the processor and the motherboard. The HPE Intel Xeon 4208 Processor features the GA3647 socket type, which ensures compatibility with compatible server motherboards. This socket type provides a secure and reliable connection, enabling efficient data transfer and optimal processor performance.

Compatibility

The GA3647 socket type of the HPE Intel Xeon 4208 Processor ensures compatibility with server motherboards designed to support this socket. This allows for easy integration of the processor into existing server systems or the creation of new systems without compatibility concerns. It provides flexibility and ensures a smooth installation process.

Secure Connection

The GA3647 socket type provides a secure connection between the processor and the motherboard. This ensures that the processor is firmly seated, preventing any accidental disconnections or interruptions in data transfer. A secure connection is vital for maintaining stability and reliability, especially in mission-critical server environments.

Efficient Data Transfer

The GA3647 socket type facilitates efficient data transfer between the HPE Intel Xeon 4208 Processor and the motherboard. This enables seamless communication between the processor and other system components, such as memory modules, expansion cards, and storage devices. Efficient data transfer results in improved overall system performance and responsiveness.

Scalability

The GA3647 socket type supports scalability, allowing for future upgrades or system expansion. With this socket type, you can easily upgrade your server by replacing the existing processor with a more powerful one compatible with the GA3647 socket. This provides a cost-effective approach to enhancing server performance as your business grows or requirements change.

Reliable Server Performance

A reliable connection between the processor and motherboard is crucial for maintaining stable server performance. The GA3647 socket type ensures a dependable connection that minimizes the risk of system failures or data loss. This is especially important in server environments where uninterrupted operations and data integrity are paramount.

Optimized Workload Distribution

The GA3647 socket type allows for optimized workload distribution among multiple processors in a server system. It enables the installation of multiple HPE Intel Xeon 4208 Processors, ensuring efficient workload distribution and improved overall system performance. This is particularly beneficial for high-demand applications or workloads that require significant processing power.

High-Performance Computing

High-performance computing (HPC) applications often require multiple processors to handle complex calculations and simulations. The GA3647 socket type accommodates multiple HPE Intel Xeon 4208 Processors, enabling efficient parallel processing and enhanced HPC performance. It allows researchers, engineers, and scientists to tackle computationally intensive tasks efficiently.

Server Virtualization

Virtualized server environments benefit from the GA3647 socket type by allowing for the deployment of multiple virtual machines across multiple processors. This enhances server consolidation and virtual machine density, maximizing resource utilization and improving overall virtualization efficiency. The GA3647 socket type enables seamless integration of the HPE Intel Xeon 4208 Processor into virtualized environments.

Manufacturing Technology: 14NM

The manufacturing technology of a processor refers to the size of its transistors and the overall fabrication process. The HPE Intel Xeon 4208 Processor is manufactured using a cutting-edge 14nm (nanometer) process, resulting in a highly efficient and powerful processor.

Enhanced Efficiency

The 14nm manufacturing technology employed in the HPE Intel Xeon 4208 Processor offers enhanced efficiency compared to previous generations. Smaller transistors allow for reduced power consumption and heat generation, resulting in improved energy efficiency. This not only benefits the environment but also reduces operating costs for businesses.

Higher Performance

The 14nm manufacturing process enables the HPE Intel Xeon 4208 Processor to deliver higher performance compared to older processors. Smaller transistors allow for more transistors to be packed into the same physical space, increasing the processor's computational power. This results in improved processing speeds, faster data transfers, and overall enhanced performance.

Improved Thermal Management

The 14nm manufacturing technology improves thermal management capabilities by reducing heat generation. Smaller transistors produce less heat during operation, allowing for more efficient cooling solutions. This translates to lower operating temperatures and improved system stability, ensuring reliable performance even under heavy workloads.

Increased Scalability

The 14nm manufacturing process provides increased scalability options for server systems. It allows for the integration of multiple HPE Intel Xeon 4208 Processors within a single system, providing higher core counts and increased processing power. This scalability is essential for businesses that anticipate future growth or need to accommodate expanding workloads.

Optimized Cloud Computing

Cloud computing relies on efficient data processing and resource allocation. The 14nm manufacturing technology of the HPE Intel Xeon 4208 Processor enhances cloud computing performance by delivering higher processing power and improved energy efficiency. This allows cloud service providers to deliver faster response times, improved scalability, and cost-effective solutions to their customers.

Reliable Server Infrastructure

The 14nm manufacturing process contributes to the reliability of server infrastructure. By reducing heat generation, it enables more efficient cooling solutions, ensuring stable operation even in demanding server environments. The enhanced thermal management capabilities of the HPE Intel Xeon 4208 Processor minimize the risk of overheating and system failures, providing businesses with reliable and uninterrupted operations.

Efficient Data Centers

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