HPE Intel Xeon E5-2620 2.0GHZ 15MB Cache 7.2GT/S QPI Processor 670529-001
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Speed: 2.0GHz
Enhanced Performance
The HPE E5-2620 Processor boasts a clock speed of 2.0GHz, providing users with enhanced performance capabilities. This impressive speed allows for faster data processing, enabling users to complete tasks quickly and efficiently. Whether you are running resource-intensive applications or performing complex calculations, the 2.0GHz speed ensures smooth and seamless performance.
Product Overview
Discover the HPE E5-2620, a powerful server processor designed to deliver robust performance for demanding applications.
Manufacturer and Model Details
- Manufacturer: Hewlett Packard Enterprise (HPE)
- Processor Type: Server Processor
- Part Number: 670529-001
- Model: E5-2620
Technical Specifications
- Core Count: 6 cores
- Base Clock Speed: 2.0 GHz
- Maximum Turbo Frequency: 2.5 GHz
- QuickPath Interconnect (QPI) Speed: 7.2 GT/s
- Instruction Set: 64-bit
- Instruction Set Extensions: AVX
Cache Memory Details
- L3 Cache: 15 MB
Manufacturing Technology
- Process Lithography: 32 nm
- Maximum Thermal Design Power (TDP): 95 W
- Compatible Processor Socket: FCLGA-2011
Advanced Technologies
- Turbo Boost Technology: Enhances processor performance dynamically
- Hyper-Threading Technology: Supports simultaneous multi-threading
- vPro Technology: Provides advanced security and manageability features
- Virtualization Technologies: Includes VT-x and VT-d for efficient virtualization
- Extended Memory 64 Technology: Supports large memory capacities
- Enhanced SpeedStep Technology: Adjusts processor speed to balance performance and power
- Trusted Execution Technology: Enhances system security
- Thermal Monitoring Technologies: Monitors and manages processor temperature
Additional Features
- Demand-Based Switching: Optimizes power consumption based on workload
- AES New Instructions: Accelerates encryption processes
- Execute Disable Bit: Helps prevent certain types of malware
- Flex Memory Access: Provides flexible memory management
- Idle States: Reduces power consumption when the processor is not in use
Environmental Specifications
- Thermal Specification: Operates up to 77.4°C (171.32°F)
Efficient Multitasking
With a higher clock speed, the HPE E5-2620 Processor allows for efficient multitasking. Users can effortlessly switch between multiple applications without experiencing any lag or slowdowns. This is particularly beneficial for professionals who need to work on various tasks simultaneously, such as video editing, graphic design, or running virtual machines.
Improved Responsiveness
The 2.0GHz speed of the HPE E5-2620 Processor significantly improves system responsiveness. Applications launch quickly, and software responds promptly to user commands. This ensures a smoother user experience and reduces frustration caused by delays or unresponsive programs.
Seamless Gaming Experience
Gamers can also benefit from the 2.0GHz speed of the HPE E5-2620 Processor. With faster clock speeds, gaming performance is enhanced, allowing for smooth gameplay and reduced latency. Users can enjoy graphically demanding games without worrying about frame rate drops or stuttering.
Importance of Speed in a Processor
The speed of a processor is a crucial factor when it comes to overall system performance. A higher clock speed means that the processor can execute instructions more quickly, resulting in faster data processing and improved system responsiveness. The HPE E5-2620 Processor's 2.0GHz speed ensures optimal performance across a wide range of tasks and applications.
Benefits of the 2.0GHz Speed
- Faster data processing: The 2.0GHz speed allows for quicker execution of instructions, resulting in faster data processing and analysis.
- Increased productivity: With enhanced performance capabilities, users can complete tasks more efficiently, leading to increased productivity.
- Smooth multitasking: The higher clock speed enables seamless multitasking, allowing users to switch between applications without experiencing any slowdowns.
- Enhanced gaming experience: Gamers can enjoy a smooth and immersive gaming experience, thanks to the improved performance provided by the 2.0GHz speed.
Cache: 15MB
Improved Data Access
The HPE E5-2620 Processor features a generous 15MB cache, which plays a critical role in improving data access and retrieval. The cache acts as a temporary storage area for frequently accessed data, reducing the need to fetch information from the main memory or storage devices. This results in faster data retrieval and improved overall system performance.
Reduced Latency
The 15MB cache size significantly reduces latency by storing frequently used data closer to the processor. When an application requests data, the processor can quickly access it from the cache instead of waiting for it to be fetched from slower storage devices. This reduction in latency ensures faster response times and smoother operation of applications and software.
Optimized Workflows
With an ample 15MB cache, the HPE E5-2620 Processor optimizes workflows by minimizing the time spent on data retrieval. This is particularly beneficial for professionals working with large datasets or running memory-intensive applications. Tasks that involve frequent data access, such as video editing or database management, can be completed more efficiently with a larger cache size.
Improved CPU Utilization
The 15MB cache helps improve CPU utilization by reducing the time spent on waiting for data. This allows the processor to focus on executing instructions, maximizing its efficiency and performance. As a result, users can experience smoother multitasking and faster application response times, even when dealing with resource-intensive tasks.
Importance of Cache in a Processor
Cache plays a crucial role in bridging the speed gap between the processor and main memory or storage devices. It acts as a high-speed buffer, storing frequently accessed data to minimize the time spent on data retrieval. A larger cache size, such as the 15MB offered by the HPE E5-2620 Processor, improves system performance by reducing latency and optimizing data access.
Benefits of the 15MB Cache
- Faster data retrieval: The large cache size allows for quicker access to frequently used data, reducing the time spent on fetching information from slower storage devices.
- Improved application performance: Reduced latency and faster data access result in improved overall application performance and smoother operation.
- Enhanced multitasking capabilities: The ample cache size enables seamless multitasking, as frequently accessed data is readily available to the processor.
- Efficient handling of large datasets: Professionals working with large datasets can benefit from the 15MB cache, as it optimizes workflows and minimizes data retrieval time.
QPI: 7.2GT/s
High-Speed Data Transfer
The QPI (QuickPath Interconnect) of the HPE E5-2620 Processor operates at an impressive speed of 7.2GT/s. QPI is responsible for connecting the processor to other components within the system, such as memory modules, input/output devices, and other processors in multi-socket configurations. With a high-speed QPI, data transfer between these components is accelerated, leading to improved system performance.
Efficient Communication Between Components
The 7.2GT/s QPI ensures efficient communication between the HPE E5-2620 Processor and other system components. Whether it's exchanging data with memory modules or transferring information to external devices, the high-speed QPI streamlines these communication pathways, reducing bottlenecks and enhancing overall system responsiveness.
Scalability and Flexibility
The high-speed QPI of 7.2GT/s enhances the scalability and flexibility of the HPE E5-2620 Processor. In multi-socket configurations, where multiple processors are interconnected, a fast QPI is crucial for maintaining efficient communication between the processors. This scalability allows users to expand their system's processing capabilities without sacrificing performance.
Optimized Performance in Memory-Intensive Tasks
For memory-intensive tasks, such as virtualization or database management, the 7.2GT/s QPI plays a vital role in optimizing performance. The high-speed data transfer ensures that the processor can efficiently access and retrieve data from memory modules, reducing latency and improving overall system responsiveness. This is particularly important for professionals who rely on fast data access for their work.
Importance of QPI in a Processor
QPI serves as a critical interconnect technology that facilitates high-speed data transfer between various components within a system. A fast QPI, such as the 7.2GT/s offered by the HPE E5-2620 Processor, ensures efficient communication, scalability, and optimized performance in memory-intensive tasks.
Benefits of the 7.2GT/s QPI
- Accelerated data transfer: The high-speed QPI improves data transfer rates between the processor and other system components, resulting in enhanced overall system performance.
- Efficient communication pathways: The fast QPI streamlines communication pathways, reducing bottlenecks and improving system responsiveness.
- Scalability and flexibility: The high-speed QPI enhances the scalability and flexibility of the processor, allowing for easy expansion of processing capabilities in multi-socket configurations.
- Optimized performance in memory-intensive tasks: For tasks that heavily rely on memory access, the 7.2GT/s QPI ensures efficient data transfer, reducing latency and improving overall system performance.
Socket: 32NM
Advanced Manufacturing Technology
The HPE E5-2620 Processor features a socket built on a 32nm (nanometer) manufacturing process. This advanced technology allows for greater integration of transistors and other components within the processor, resulting in improved performance, energy efficiency, and thermal management.
Increased Transistor Density
The 32nm manufacturing process enables a higher transistor density within the processor. More transistors can be packed into a smaller area, allowing for increased computational power and improved performance. This enhanced transistor density contributes to faster data processing and better overall system responsiveness.
Energy Efficiency
The 32nm manufacturing process also enhances energy efficiency. The smaller size of the transistors reduces power consumption, leading to lower energy requirements and reduced heat generation. This energy-efficient design is not only beneficial for reducing electricity costs but also contributes to a cooler and quieter system operation.
Improved Thermal Management
With the 32nm socket, thermal management is significantly improved. The smaller transistors produce less heat, allowing for better heat dissipation and temperature control. This results in a more stable system operation and prevents overheating, which can lead to performance degradation or hardware failures.
Importance of Socket in a Processor
The socket of a processor is crucial as it determines the compatibility with the motherboard and influences overall system performance. The 32nm socket of the HPE E5-2620 Processor offers advanced manufacturing technology, resulting in increased transistor density, improved energy efficiency, and enhanced thermal management.
Benefits of the 32nm Socket
- Increased computational power: The higher transistor density made possible by the 32nm socket allows for increased computational power and improved overall system performance.
- Energy efficiency: The smaller transistors consume less power, leading to lower energy requirements and reduced heat generation. This contributes to energy-efficient operation and cost savings.
- Better thermal management: The 32nm socket enables improved heat dissipation and temperature control, resulting in a more stable system operation and preventing overheating.
- Compatibility: The socket compatibility ensures that the HPE E5-2620 Processor can be seamlessly integrated into compatible motherboards, offering users a hassle-free installation process.
Part Number: 670529-001
Easy Identification
The HPE E5-2620 Processor is uniquely identified by its part number, 670529-001. This alphanumeric code allows users to easily identify and locate the specific processor they require. Whether it's for replacement or upgrade purposes, having a distinct part number simplifies the procurement process and ensures compatibility with the intended system.
Compatibility Assurance
The part number, 670529-001, assures compatibility with compatible systems and motherboards. By referencing the correct part number, users can ensure that the processor will work seamlessly with their existing hardware configuration. This eliminates any concerns about compatibility issues and ensures a smooth installation process.
Product Support and Documentation
Having a unique part number facilitates access to product support and documentation. Users can search for resources specific to the HPE E5-2620 Processor using its part number, ensuring that they have access to accurate information regarding installation, troubleshooting, and product specifications. This simplifies the process of finding relevant support materials and ensures efficient problem-solving.
Replacement and Upgrade Convenience
The part number, 670529-001, makes it convenient for users to source a replacement or upgrade their existing processor. By simply referencing the part number, users can easily find suppliers or retailers offering the HPE E5-2620 Processor. This streamlines the procurement process and saves time and effort that would otherwise be spent on searching for the correct product.
Importance of Part Number in a Processor
The part number is crucial in identifying and ensuring compatibility with specific processors. It simplifies the procurement process, facilitates compatibility assurance, and provides access to product support and documentation.
Benefits of the 670529-001 Part Number
- Easy identification: The unique part number, 670529-001, allows for easy identification of the HPE E5-2620 Processor.
- Compatibility assurance: By referencing the correct part number, users can ensure compatibility with their existing hardware configuration.
- Access to support and documentation: The part number facilitates access to product support and relevant documentation, aiding in installation, troubleshooting, and understanding product specifications.
- Convenience in replacement or upgrade: The part number simplifies the procurement process when sourcing a replacement or upgrading the processor, saving time and effort.