Intel E5-2630L V2 2.4GHz 15MB L3 Cache 7.2 GT/S QPI Fclga 2011 22NM 60W Processor CM8063501376200
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Product Overview
Discover the Intel E5-2630L V2, a high-performance processor designed by Intel Corporation. This model, identified by the manufacturer part number CM8063501376200, offers robust features suitable for various computing tasks.
Key Manufacturer Details
- Brand: Intel
- Model Number: E5-2630L V2
- Part Number: CM8063501376200
Technical Specifications
Core and Clock Speed
The E5-2630L V2 is equipped with a hexa-core architecture, delivering efficient multi-threaded performance. It operates at a base clock frequency of 2.40 GHz, ensuring smooth execution of applications.
Cache Memory
- L1 Cache: 384 KB
- L2 Cache: 1.50 MB
- L3 Cache: 15 MB
Manufacturing Process
Built using 22 nm process technology, the E5-2630L V2 offers improved power efficiency and performance. This advanced technology contributes to the processor's capability and reliability.
Compatibility and Installation
Processor Socket Compatibility
The E5-2630L V2 is designed to fit the Socket FCLGA2011, making it compatible with motherboards that support this socket type. Ensure your motherboard meets this specification for proper installation and functionality.
Clock Speed: 2.4GHz
The clock speed is a crucial factor to consider when choosing a processor for your system. In the case of the Intel E5-2630l V2 Processor, it boasts a clock speed of 2.4GHz. This signifies the number of cycles per second that the processor can execute.
Improved Performance
A higher clock speed directly translates into improved performance. With a clock speed of 2.4GHz, the Intel E5-2630l V2 Processor can handle tasks more quickly and efficiently. This is particularly important for resource-intensive applications such as gaming, video editing, and 3D modeling.
Smooth Multitasking
The clock speed also plays a vital role in multitasking capabilities. With a higher clock speed, the processor can handle multiple tasks simultaneously without experiencing significant lag or slowdowns. This is particularly beneficial for professionals who need to run multiple applications at once, such as designers, engineers, and content creators.
Seamless Gaming Experience
Gamers often demand high-performance processors to ensure smooth gameplay and seamless graphics rendering. The 2.4GHz clock speed of the Intel E5-2630l V2 Processor ensures that games run smoothly without any noticeable hiccups or frame rate drops. This allows gamers to fully immerse themselves in their favorite titles without any distractions.
Efficient Video Editing
Video editing is a resource-intensive task that requires significant processing power. The 2.4GHz clock speed of the Intel E5-2630l V2 Processor ensures that video editing software can process and render videos quickly, reducing waiting times and increasing overall productivity for content creators.
Optimized Rendering
For professionals working with 3D modeling or rendering software, a higher clock speed is essential. The 2.4GHz clock speed of the Intel E5-2630l V2 Processor allows for faster rendering times, enabling designers and architects to visualize and modify their projects more efficiently.
Cache: 15MB L3
The cache is a small amount of high-speed memory located on the processor itself. In the case of the Intel E5-2630l V2 Processor, it features a generous 15MB L3 cache. This cache size has important implications for system performance and responsiveness.
Quick Access to Data
The larger the cache size, the more data can be stored closer to the processor, allowing for quicker access. With a 15MB L3 cache, the Intel E5-2630l V2 Processor can store frequently accessed data, instructions, and calculations, reducing the time it takes to retrieve information from the main memory. This results in faster overall system performance.
Improved Responsiveness
A larger cache size also improves system responsiveness. With frequently accessed data stored in the cache, the processor can quickly retrieve information without having to access slower memory locations. This is particularly beneficial for applications that rely on quick data retrieval, such as databases, web servers, and virtual machines.
Enhanced Gaming Performance
In gaming, quick access to game assets and instructions is crucial for smooth gameplay. The 15MB L3 cache of the Intel E5-2630l V2 Processor ensures that games can load assets quickly, reducing loading times and improving overall gaming performance. This gives gamers a competitive edge by minimizing delays and ensuring a seamless gaming experience.
Efficient Virtualization
Virtualization technology allows users to run multiple operating systems or applications on a single physical machine. The 15MB L3 cache of the Intel E5-2630l V2 Processor enhances virtualization performance by providing faster access to virtual machine data and instructions. This enables smoother multitasking and improves the overall efficiency of virtualized environments.
Accelerated Content Creation
Content creation tasks, such as video editing and 3D rendering, require frequent access to large amounts of data. The 15MB L3 cache of the Intel E5-2630l V2 Processor allows content creators to work with large files more efficiently, reducing rendering times and improving overall productivity.
QPI: 7.2 GT/S
The Quick Path Interconnect (QPI) is a high-speed interface that connects the processor to other components in the system, such as memory and peripherals. The Intel E5-2630l V2 Processor features a QPI speed of 7.2 GT/S, which has significant implications for system performance and data transfer rates.
Faster Data Transfer
The 7.2 GT/S QPI speed of the Intel E5-2630l V2 Processor enables faster data transfer between the processor and other system components. This is particularly important for tasks that involve large-scale data processing, such as scientific simulations, big data analytics, and financial modeling. The faster data transfer results in quicker overall system performance and reduced processing times.
Improved System Responsiveness
With a faster QPI speed, the Intel E5-2630l V2 Processor can communicate with system components more efficiently. This leads to improved system responsiveness, reducing delays when accessing memory or interacting with peripherals. Users will notice a snappier user interface and smoother overall system operation.
Enhanced Scalability
The 7.2 GT/S QPI speed also enhances system scalability. It allows for seamless integration of multiple processors or expansion cards, enabling users to scale their systems to meet growing computational demands. This is particularly beneficial for businesses and research institutions that require high-performance computing capabilities.
Optimized Virtualization Performance
Virtualized environments often require efficient communication between multiple virtual machines and the underlying hardware. The 7.2 GT/S QPI speed of the Intel E5-2630l V2 Processor ensures smooth and responsive virtualization performance by facilitating quick data transfers between virtual machines and the processor. This results in improved multitasking capabilities and overall system efficiency.
Socket Type: Fclga 2011
The socket type is an essential consideration when selecting a processor as it determines compatibility with the motherboard. The Intel E5-2630l V2 Processor utilizes the Fclga 2011 socket type, providing various advantages for users.
Wide Compatibility
The Fclga 2011 socket type offers compatibility with a wide range of motherboards designed for Intel processors. This ensures that users have a broad selection of motherboards to choose from, allowing them to tailor their system to their specific needs and preferences.
Future Upgradeability
Opting for a processor with the Fclga 2011 socket type provides users with future upgradeability options. As new processors are released, users can easily upgrade their systems by simply replacing the existing processor with a compatible one. This allows for future-proofing your system and extending its lifespan without having to invest in an entirely new motherboard.
Support for High-Performance Features
The Fclga 2011 socket type supports high-performance features, such as multiple cores, increased memory capacity, and advanced power management capabilities. This enables users to take full advantage of the Intel E5-2630l V2 Processor's capabilities, ensuring optimal performance and efficiency.
Workstation and Server Applications
The Fclga 2011 socket type is commonly found in workstation and server-grade motherboards. This makes the Intel E5-2630l V2 Processor an ideal choice for professionals working in industries such as architecture, engineering, scientific research, and server hosting. The Fclga 2011 socket type provides the necessary infrastructure for robust and reliable systems in these demanding environments.
Manufacturing Technology: 22NM
The manufacturing technology refers to the process used to create the processor's integrated circuits. The Intel E5-2630l V2 Processor is manufactured using a 22nm process, which offers several benefits in terms of performance, power efficiency, and overall reliability.
Enhanced Performance
The 22nm manufacturing technology allows for the creation of smaller transistors and circuits, resulting in improved performance. This translates into faster data processing, quicker task execution, and enhanced overall system responsiveness. Users will experience snappy performance across a wide range of applications and tasks.
Improved Power Efficiency
The 22nm manufacturing technology is highly power-efficient compared to previous generations. The smaller transistors consume less power while delivering the same level of performance or even better. This leads to reduced power consumption, lower heat generation, and longer battery life for mobile devices.
Reduced Heat Dissipation
With the 22nm manufacturing technology, the Intel E5-2630l V2 Processor generates less heat compared to older processors. This is beneficial for system stability and longevity as it reduces the strain on cooling systems and prevents overheating issues. It also allows for quieter operation, making it suitable for noise-sensitive environments such as recording studios or offices.
Reliability and Longevity
The 22nm manufacturing technology ensures high reliability and longevity for the Intel E5-2630l V2 Processor. The smaller transistors are less prone to physical wear and tear, resulting in a longer lifespan. This makes it an ideal choice for users who require a processor that can withstand heavy workloads and extended usage periods without compromising performance or stability.
Power Consumption: 60W
Power consumption is a critical factor to consider, especially for users who prioritize energy efficiency or have specific power limitations. The Intel E5-2630l V2 Processor has a power consumption of 60W, offering several benefits in terms of energy efficiency and environmental impact.
Energy Efficiency
The 60W power consumption of the Intel E5-2630l V2 Processor makes it highly energy-efficient. It consumes less power compared to processors with higher power ratings, resulting in lower electricity bills and reduced environmental impact. This is particularly important for businesses or individuals who use their systems for extended periods or run energy-intensive applications.
Reduced Cooling Requirements
The lower power consumption of the Intel E5-2630l V2 Processor translates into reduced cooling requirements. The processor generates less heat, allowing for quieter and more efficient cooling solutions. This is particularly beneficial for users who prioritize a quiet working environment or have limited space for bulky cooling systems.
Environmental Impact
By consuming less power, the Intel E5-2630l V2 Processor contributes to a reduced carbon footprint. It helps conserve energy resources and reduces greenhouse gas emissions associated with power generation. Choosing a low-power processor like the Intel E5-2630l V2 Processor is a step towards sustainable computing practices.
Compatibility with Power-Limited Environments
The 60W power consumption of the Intel E5-2630l V2 Processor makes it suitable for systems with power limitations. This could include environments where power usage is restricted, such as offices or data centers with strict power allocations. The low power consumption ensures that the processor can operate within the specified power constraints without compromising performance.