HPE 683610-001 Intel Xeon E5 1620 3.6GHz Quad Core Processor

Clock Speed: 3.6GHz

The clock speed of a processor is an important specification that determines the speed at which it can execute instructions. In the case of the HPE E5 1620 Quad Core Processor, it boasts an impressive clock speed of 3.6GHz. This means that each core of the processor can execute 3.6 billion cycles per second, allowing for efficient and fast processing of tasks.

Improved Performance

A higher clock speed directly translates to improved performance. With a clock speed of 3.6GHz, the HPE E5 1620 Quad Core Processor can handle demanding applications and multitasking with ease. Whether you are running complex simulations, rendering graphics, or editing videos, this processor can handle it all without any noticeable lag or slowdown.

Smooth Gaming Experience

Gamers will also appreciate the benefits of a high clock speed. Games often require fast processing power to deliver smooth gameplay and responsive controls. The 3.6GHz clock speed of the HPE E5 1620 Quad Core Processor ensures that even the most demanding games can run seamlessly, providing an immersive gaming experience without any stuttering or frame drops.

Efficient Video Editing

Video editing is a resource-intensive task that requires significant processing power. With a clock speed of 3.6GHz, the HPE E5 1620 Quad Core Processor excels in handling video editing software, allowing for faster rendering times and smoother editing workflows. This enables professionals to work more efficiently and meet tight deadlines without compromising on quality.

L2 Cache: 1MB

The L2 cache is a type of memory that sits between the processor cores and main memory. It acts as a buffer, storing frequently accessed data and instructions to reduce the time it takes for the processor to fetch information. The HPE E5 1620 Quad Core Processor features a 1MB L2 cache, which offers several benefits for users.

Faster Data Access

The 1MB L2 cache of the HPE E5 1620 Quad Core Processor allows for faster data access. By storing frequently used data closer to the processor cores, it reduces the need to retrieve information from the slower main memory. This results in improved overall system performance, as data can be accessed more quickly, and applications can run more smoothly.

Reduced Latency

Latency refers to the delay between requesting data and receiving a response. With a larger L2 cache, such as the 1MB offered by the HPE E5 1620 Quad Core Processor, the chances of finding requested data in the cache are higher. This reduces latency and improves system responsiveness, allowing for faster execution of tasks and a smoother user experience.

Better Multitasking

The 1MB L2 cache also enhances multitasking capabilities. When running multiple applications simultaneously, each application requires access to various data and instructions. With a larger L2 cache, the processor can store more of this information, enabling seamless switching between tasks without significant performance degradation. This makes the HPE E5 1620 Quad Core Processor ideal for users who frequently multitask or run resource-intensive applications.

L3 Cache: 10MB

Similar to the L2 cache, the L3 cache is another level of memory that provides additional storage for frequently accessed data. The HPE E5 1620 Quad Core Processor features an impressive 10MB L3 cache, offering users several benefits.

Improved Data Transfer

The 10MB L3 cache of the HPE E5 1620 Quad Core Processor allows for improved data transfer between the processor and memory. With a larger cache, more data can be stored closer to the processor cores, reducing the need to retrieve information from the main memory. This results in faster data transfer rates and improved overall system performance.

Enhanced Gaming Performance

Gaming enthusiasts will appreciate the benefits of a larger L3 cache. Games often require quick access to large amounts of data, such as textures, models, and AI algorithms. With a 10MB L3 cache, the HPE E5 1620 Quad Core Processor can store more of this data, reducing loading times and improving in-game performance. Gamers can enjoy smoother gameplay, reduced hitching, and enhanced visuals.

Efficient Virtualization

Virtualization involves running multiple virtual machines on a single physical machine. Each virtual machine requires a dedicated portion of system resources, including CPU cycles and memory. With a 10MB L3 cache, the HPE E5 1620 Quad Core Processor can efficiently allocate resources to virtual machines, ensuring smooth operation and minimizing performance bottlenecks. This makes it an excellent choice for users who rely on virtualization for their work or personal needs.

Socket: Fclga 2011

The socket is the physical interface that connects the processor to the motherboard. The HPE E5 1620 Quad Core Processor utilizes the Fclga 2011 socket, which offers several benefits for users.

Compatibility

The Fclga 2011 socket is compatible with a wide range of motherboards. This ensures that users have flexibility when it comes to choosing a compatible system or upgrading their existing one. Whether you are building a new computer or looking to replace your current processor, the Fclga 2011 socket provides you with a variety of options to suit your needs.

Support for High-End Features

The Fclga 2011 socket is commonly found in high-end motherboards that support advanced features. These features may include support for multiple graphics cards, higher RAM capacities, and more extensive connectivity options. By utilizing the Fclga 2011 socket, users can take advantage of these high-end features and build a powerful system tailored to their specific requirements.

Future Upgradeability

The Fclga 2011 socket offers future upgradeability. As technology advances and new processors are released, users can easily upgrade their systems by swapping out the HPE E5 1620 Quad Core Processor for a newer model that utilizes the same socket. This allows users to extend the lifespan of their systems and stay up to date with the latest hardware innovations without having to replace the entire motherboard.

Manufacturing Technology: 32NM

The manufacturing technology refers to the size of the transistors used in the processor's fabrication process. The HPE E5 1620 Quad Core Processor is built using a 32nm manufacturing technology, which offers several benefits for users.

Improved Power Efficiency

A smaller manufacturing technology, such as 32nm, results in improved power efficiency. The transistors used in the processor are smaller and require less power to switch on and off. This translates into lower power consumption and reduced heat output. The HPE E5 1620 Quad Core Processor not only delivers excellent performance but also helps users save on electricity bills and maintain a cooler system.

Higher Clock Speeds

The 32nm manufacturing technology allows for higher clock speeds. With smaller transistors, the processor can switch states more quickly, enabling faster operation and higher clock frequencies. This means that the HPE E5 1620 Quad Core Processor can achieve its impressive clock speed of 3.6GHz while maintaining power efficiency and stability.

Optimized Performance

The 32nm manufacturing technology enables the HPE E5 1620 Quad Core Processor to deliver optimized performance. The smaller transistors result in shorter signal paths, reducing latency and improving overall responsiveness. This allows users to experience smooth and snappy system operation, whether they are browsing the web, working on complex tasks, or engaging in multimedia activities.

Power Consumption: 130W

Power consumption is an important consideration for users, as it affects both energy efficiency and system cooling. The HPE E5 1620 Quad Core Processor has a power consumption rating of 130W, offering several benefits for users.

Energy Efficiency

Despite its high-performance capabilities, the HPE E5 1620 Quad Core Processor remains energy efficient. The 130W power consumption rating ensures that the processor strikes a balance between performance and energy savings. Users can enjoy powerful computing without excessive power usage, allowing for a more environmentally friendly and cost-effective solution.

Cooler System Operation

The 130W power consumption rating also contributes to cooler system operation. A processor with lower power consumption generates less heat, reducing the strain on cooling systems and fans. This results in quieter operation and helps to extend the lifespan of other components within the system. Users can work or play without the distraction of excessive fan noise while maintaining optimal system temperatures.

Overclocking Potential

The 130W power consumption rating indicates that the HPE E5 1620 Quad Core Processor has sufficient headroom for overclocking. Overclocking refers to increasing the clock speed of the processor beyond its default settings to achieve higher performance levels. With a power consumption rating of 130W, users can push the processor's limits while still maintaining stability and preventing excessive heat generation.

Part Number: 683610-001

The part number is a unique identifier for a specific component. In the case of the HPE E5 1620 Quad Core Processor, its part number is 683610-001. This feature offers several benefits for users.

Easy Identification

The part number allows for easy identification and differentiation of the HPE E5 1620 Quad Core Processor from other models or variants. This is particularly useful when sourcing or purchasing replacement processors or when comparing specifications between different models. Users can quickly identify the specific model they require based on its unique part number, ensuring compatibility and accurate information.

Technical Support and Documentation

The part number serves as a reference point for technical support and documentation. When seeking assistance or troubleshooting, providing the correct part number ensures that support personnel can accurately identify and address any issues. Additionally, technical documentation often refers to specific part numbers when discussing compatibility, installation procedures, or product specifications, allowing users to access the relevant information easily.

Product Authenticity

The part number also helps verify the authenticity of the HPE E5 1620 Quad Core Processor. Counterfeit or imitation products can be prevalent in the market, particularly for popular components. By cross-referencing the part number with official sources or reputable sellers, users can ensure that they are purchasing a genuine product. This helps to safeguard against potential performance issues, compatibility problems, or warranty concerns.