588070-B21 HPE Intel Xeon Dp E5630 2.53Ghz Quad-core Processor

Cache

One of the key features of the HPE E5630 Quad-core Processor is its cache size. With a cache size of 1MB and 12MB, this processor offers users a significant advantage in terms of performance and speed.

Benefits of Cache

Cache is a small, high-speed memory that stores frequently accessed data. It acts as a buffer between the processor and main memory, allowing for faster data retrieval. The larger the cache size, the more data can be stored, resulting in faster data access and improved overall performance.

Improved Processing Speed

The 1MB and 12MB cache sizes of the HPE E5630 Quad-core Processor ensure that frequently used data is readily available to the CPU. This reduces the time required for data retrieval, resulting in faster processing speed. Whether you're running resource-intensive applications or multitasking, a larger cache size can significantly enhance your computing experience.

Reduced Memory Latency

By storing frequently accessed data in the cache, the processor minimizes the need to access information from the main memory. This reduces memory latency, which refers to the time it takes for the processor to retrieve data from RAM. With a larger cache size, the HPE E5630 Quad-core Processor can minimize memory latency and provide a smoother computing experience.

Enhanced Gaming and Multimedia Experience

Gamers and multimedia enthusiasts can also benefit from the larger cache size of the HPE E5630 Quad-core Processor. The CPU can quickly retrieve game assets, textures, and multimedia files from the cache, resulting in reduced loading times and smoother gameplay. Additionally, multimedia applications that require real-time data processing will also benefit from faster access to frequently used data.

Importance for Users

For users who require high-performance computing capabilities, such as gamers, content creators, and professionals working with resource-intensive applications, the cache size of the HPE E5630 Quad-core Processor is crucial. The larger cache size ensures faster data access, reduced memory latency, and improved overall system performance.

QPI Speed

Another important feature of the HPE E5630 Quad-core Processor is its QPI (QuickPath Interconnect) Speed. With a speed of 5.86GT/s, this processor offers users enhanced data transfer capabilities and improved system performance.

Benefits of QPI Speed

QPI Speed refers to the speed at which data is transferred between the processor and other components in the system, such as memory and peripherals. A higher QPI Speed translates to faster data transfer rates and improved overall system performance.

Improved System Responsiveness

The 5.86GT/s QPI Speed of the HPE E5630 Quad-core Processor ensures that data can be transferred quickly between the processor and other system components. This results in improved system responsiveness, allowing users to perform tasks more efficiently and with minimal lag.

Enhanced Multi-Core Performance

Modern applications and operating systems are designed to take advantage of multiple CPU cores. The higher QPI Speed of the HPE E5630 Quad-core Processor allows for efficient communication between cores, enabling them to work together seamlessly. This enhances multi-core performance, making it ideal for users who regularly run resource-intensive applications or perform tasks that require high processing power.

Faster Data Transfer

Whether you're transferring large files or working with data-intensive applications, a higher QPI Speed can significantly reduce data transfer times. The 5.86GT/s QPI Speed of the HPE E5630 Quad-core Processor ensures that data can be quickly transferred between the processor and other system components, resulting in faster overall data transfer rates.

Importance for Users

Users who require fast and efficient data transfer capabilities will find the QPI Speed of the HPE E5630 Quad-core Processor essential. Whether you're a professional working with large datasets, a gamer seeking improved system responsiveness, or a multimedia enthusiast requiring fast multimedia processing, the higher QPI Speed ensures smooth and efficient data transfer.

Socket

The HPE E5630 Quad-core Processor is designed to fit into a socket with an FCLGA-1366 interface. The socket is an essential component that determines the compatibility and connectivity of the processor with the motherboard.

Benefits of Socket

The socket plays a crucial role in ensuring that the processor is properly connected to the motherboard and other system components. The FCLGA-1366 socket offers several benefits and importance for users.

Compatibility

The FCLGA-1366 socket is designed specifically for Intel processors with a similar interface. By using a compatible socket, users can ensure that their HPE E5630 Quad-core Processor is compatible with their motherboard. This eliminates compatibility issues and ensures a seamless installation process.

Secure Connection

The socket provides a secure connection between the processor and motherboard. The FCLGA-1366 socket features an LGA (Land Grid Array) design, which uses an array of pins on the processor that fit into corresponding holes on the socket. This design ensures a reliable connection, reducing the risk of disconnection or damage during operation.

Efficient Heat Dissipation

The socket also plays a role in heat dissipation. The FCLGA-1366 socket allows for the installation of compatible CPU coolers or heatsinks, which help dissipate heat generated by the processor. Efficient heat dissipation is crucial for maintaining optimal performance and preventing overheating.

Importance for Users

The socket type is essential for users who want to ensure compatibility and proper installation of the HPE E5630 Quad-core Processor. By using the FCLGA-1366 socket, users can be confident that their processor will fit securely into their motherboard, allowing for efficient data transfer and heat dissipation.

Nm Technology

The HPE E5630 Quad-core Processor utilizes 32nm technology, which refers to the size of the transistors on the processor. This technology offers several benefits and importance for users.

Benefits of Nm Technology

The size of transistors on a processor directly impacts its performance, power consumption, and heat dissipation. The smaller the size, the more transistors can be packed onto the processor, resulting in improved performance and efficiency.

Increased Performance

The 32nm technology used in the HPE E5630 Quad-core Processor allows for a higher density of transistors on the chip. This increased transistor density translates to improved performance, as more transistors can perform computations simultaneously. Users can expect faster processing speeds and enhanced multitasking capabilities.

Lower Power Consumption

Smaller transistors also consume less power. The 32nm technology utilized by the HPE E5630 Quad-core Processor ensures that power is efficiently utilized, resulting in lower power consumption. This is particularly important for users concerned about energy efficiency or those using portable devices that rely on battery power.

Improved Heat Dissipation

Smaller transistors also contribute to better heat dissipation. The reduced size allows heat to be dissipated more effectively, preventing overheating and maintaining optimal performance. Efficient heat dissipation is crucial for preventing thermal throttling and maintaining system stability.

Importance for Users

The 32nm technology used in the HPE E5630 Quad-core Processor offers significant advantages for users. Whether you're a professional seeking improved performance for resource-intensive applications, a gamer looking for faster processing speeds, or a user concerned about power consumption and heat dissipation, the 32nm technology ensures an efficient and reliable computing experience.

Part Number

The part number of the HPE E5630 Quad-core Processor is 588070-B21. The part number serves as a unique identifier for the specific model and configuration of the processor.

Benefits of Part Number

The part number provides users with essential information about the specific model and configuration of the processor. Understanding the part number can help users make informed decisions and ensure compatibility with their system requirements.

Identification and Compatibility

The part number, 588070-B21, serves as an identification code that distinguishes the HPE E5630 Quad-core Processor from other processors in the market. By referencing the part number, users can ensure that they are purchasing the correct processor model that meets their system requirements. This eliminates compatibility issues and ensures a seamless integration into their system.

Product Support and Warranty

The part number is often required when seeking technical support or warranty claims. By providing the part number, users can quickly and accurately identify their specific processor model, ensuring that they receive the appropriate support or warranty service.

Product Differentiation

In a market with various processors and models, the part number serves as a way to differentiate one product from another. The unique part number allows users to compare specifications, features, and prices accurately. This enables users to make informed decisions based on their specific needs and preferences.

Importance for Users

Understanding the part number, 588070-B21, is crucial for users who want to ensure compatibility, seek technical support, or make informed purchasing decisions. By referencing the part number, users can confidently choose the HPE E5630 Quad-core Processor that meets their requirements, ensuring optimal performance and compatibility with their system.