Intel Xeon E5-2650v3 10 Core 2.3GHz 25MB L3 Cache 9.6gt/S Qpi BX80644E52650V3
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BX80644E52650V3 | Six-Month (180 Days) | Contact us for a price | Factory-Sealed New in Original Box (FSB) | |
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Intel BX80644E52650V3 Processor Details
General Product Information
- Product Type: Server Processor
- Manufacturer: Intel
- Part Number: BX80644E52650V3
- Model: Intel Xeon E5-2650 v3
Technical Specifications
Processor Performance
- Number of Cores: 10-Core
- Base Clock Speed: 2.3 GHz
- Maximum Turbo Frequency: 3.0 GHz
- QuickPath Interconnect (QPI) Speed: 9.6 GT/s
- QPI Links: 2
- Instruction Set: 64-Bit
- Instruction Set Extensions: AVX
Cache and Power Specifications
- L3 Cache Size: 25 MB
- Lithography: 22 nm
- Max Thermal Design Power (TDP): 105 W
- Compatible Processor Socket: FCLGA2011-3
Compatibility and Features
Processor Socket Compatibility
- Socket Type: FCLGA2011-3
Additional Information
- Product Line: Intel Xeon E5 Series
- Optimal Usage: Ideal for high-performance server environments
Core Count
The Intel E5-2650v3 Processor is equipped with an impressive 10 cores, making it a powerhouse for demanding tasks and resource-intensive applications. With this high core count, users can experience exceptional multitasking capabilities, allowing them to run multiple applications simultaneously without any lag or slowdown.
Benefits of High Core Count
Having a high core count offers several benefits to users:
Improved Performance
More cores mean more processing power, which translates into improved performance. Applications that are optimized to utilize multiple cores can take full advantage of the E5-2650v3 Processor's 10 cores, resulting in faster and more efficient execution of tasks.
Smooth Multitasking
The 10-core configuration allows users to perform multiple tasks concurrently without experiencing any performance degradation. Whether you are rendering videos, encoding files, or running virtual machines, the E5-2650v3 Processor can handle it all with ease.
Better Scalability
High core counts are particularly beneficial for applications that require scalability. As the workload increases, the additional cores ensure that the processor can handle the increased demand without sacrificing performance. This makes the E5-2650v3 Processor an ideal choice for businesses and professionals who require scalability for their workloads.
Importance of Multithreading
The Intel E5-2650v3 Processor supports multithreading technology, allowing each core to handle two threads simultaneously. This means that even with its 10 physical cores, the processor can handle up to 20 threads, further enhancing its multitasking capabilities.
Applications that Benefit from High Core Count
The high core count of the E5-2650v3 Processor is particularly advantageous for users who work with:
- Video editing and rendering software
- 3D modeling and animation applications
- Virtualization software
- Scientific simulations and calculations
- Database management systems
Base Clock
The Intel E5-2650v3 Processor features a base clock speed of 2.3GHz. The base clock speed represents the frequency at which the processor operates under normal conditions without any overclocking. This clock speed sets the foundation for the processor's performance and determines its overall speed and responsiveness.
Benefits of High Base Clock
A high base clock speed offers several advantages to users:
Faster Single-Thread Performance
A higher base clock speed directly translates into faster single-thread performance. Applications that are primarily single-threaded, such as certain games and software, benefit from a higher base clock speed as it allows for quicker execution of instructions.
Smoother System Operation
A higher base clock speed ensures smoother system operation, as it provides more processing power for everyday tasks. Whether you are browsing the internet, streaming videos, or working with office applications, the E5-2650v3 Processor's high base clock speed ensures a responsive and lag-free experience.
Better Overclocking Potential
For users who are interested in pushing their system's performance to the limit, a higher base clock speed provides a better starting point for overclocking. Overclocking allows users to increase the clock speed beyond the manufacturer's specifications, resulting in even higher performance levels.
Importance of Cooling
When dealing with high base clock speeds and potential overclocking, proper cooling becomes crucial. Users should ensure that their system is equipped with adequate cooling solutions, such as high-performance CPU coolers, to maintain optimal temperatures and prevent overheating.
Applications that Benefit from High Base Clock
The higher base clock speed of the E5-2650v3 Processor can significantly benefit users who work with:
- Single-threaded software and games
- Everyday computing tasks
- Real-time audio and video processing
- Media playback and streaming
L3 Cache
The Intel E5-2650v3 Processor is equipped with a generous 25MB of L3 cache. The L3 cache serves as a high-speed memory buffer located on the processor itself, providing quick access to frequently used data and instructions. Having a larger L3 cache improves overall system performance by reducing memory latency and enhancing data retrieval speeds.
Benefits of Large L3 Cache
Utilizing a larger L3 cache offers several benefits to users:
Enhanced Data Access
A larger L3 cache allows the processor to store and retrieve more data, resulting in enhanced data access speeds. This leads to improved overall system performance, especially in tasks that heavily rely on data processing and retrieval.
Reduced Memory Latency
The L3 cache acts as a buffer between the processor and the main memory. With a larger cache, the processor can store more data closer to itself, reducing the time it takes to access information from the main memory. This reduction in memory latency leads to faster data retrieval and improved system responsiveness.
Better Multitasking Performance
A larger L3 cache enables the processor to handle multiple tasks more efficiently, especially in situations where these tasks share common data. By storing frequently accessed data in the cache, the processor can quickly retrieve and process information without having to access the main memory, resulting in better multitasking performance.
Importance of Cache Coherency
When utilizing a larger L3 cache, maintaining cache coherency becomes essential. Cache coherency ensures that all caches across different processor cores and levels of cache remain consistent and up-to-date. This prevents conflicts and inconsistencies when multiple cores are accessing and modifying shared data.
Applications that Benefit from Large L3 Cache
The E5-2650v3 Processor's large L3 cache size is particularly advantageous for users who work with:
- Large datasets and databases
- Image and video editing software
- Virtualization and cloud computing
- Scientific simulations and modeling
- Game development and rendering
QPI Speed
The Intel E5-2650v3 Processor boasts a QPI (QuickPath Interconnect) speed of 9.6GT/s. The QPI speed represents the data transfer rate between the processor and other system components, such as memory and peripherals. A higher QPI speed allows for faster communication between these components, resulting in improved system performance and responsiveness.
Benefits of High QPI Speed
A high QPI speed offers several advantages to users:
Faster Memory Access
A higher QPI speed enables faster communication between the processor and memory, resulting in quicker memory access times. This translates into improved overall system performance, particularly in tasks that heavily rely on memory bandwidth, such as data-intensive applications or large-scale computations.
Improved Peripheral Performance
Devices connected to the system, such as storage drives or expansion cards, benefit from a higher QPI speed as it allows for faster data transfers. This leads to improved peripheral performance and reduced latency when accessing or transferring data to and from external devices.
Better Scalability and Expansion
A higher QPI speed enhances a system's scalability and expansion capabilities. The increased data transfer rate enables smoother communication between multiple processors in multi-socket configurations, facilitating efficient workload distribution and resource sharing.
Importance of System Balance
When considering the QPI speed, it is essential to maintain system balance by ensuring that other components, such as memory modules and storage drives, can keep up with the higher data transfer rate. Mismatched or slower components may hinder the system's overall performance potential.
Applications that Benefit from High QPI Speed
The high QPI speed of the E5-2650v3 Processor is particularly advantageous for users who work with:
- Large-scale data processing and analytics
- Virtualization and cloud computing
- High-throughput storage systems
- Multi-GPU configurations for gaming or rendering
- Server applications and workloads
Socket Type
The Intel E5-2650v3 Processor utilizes the FCLGA 2011-3 socket type. The socket type refers to the physical interface between the processor and the motherboard, determining compatibility and connectivity options. The FCLGA 2011-3 socket is specifically designed for Intel Xeon processors, offering high performance and support for advanced features.
Benefits of FCLGA 2011-3 Socket
The FCLGA 2011-3 socket type provides several benefits to users:
Enhanced Performance and Stability
The FCLGA 2011-3 socket supports high-end Intel Xeon processors, ensuring exceptional performance and stability. It enables efficient power delivery, optimal thermal management, and robust connectivity options, all of which contribute to a reliable and powerful system.
Support for Multiple Processor Configurations
The FCLGA 2011-3 socket allows for multi-socket configurations, enabling users to scale their systems by installing multiple processors. This is particularly beneficial for high-performance computing, server applications, and workloads that require extensive processing power and parallel processing capabilities.
Compatibility with Advanced Features
The FCLGA 2011-3 socket is designed to support advanced features and technologies, such as DDR4 memory, PCIe 3.0, and high-speed storage interfaces. This ensures compatibility with the latest hardware advancements, allowing users to take full advantage of cutting-edge technologies.
Importance of Motherboard Compatibility
When selecting a processor with the FCLGA 2011-3 socket, it is crucial to ensure compatibility with the motherboard. Users should verify that their chosen motherboard supports the socket type and has the necessary features and connectivity options required for their specific needs.
Applications that Benefit from FCLGA 2011-3 Socket
The FCLGA 2011-3 socket type of the E5-2650v3 Processor is particularly beneficial for users who work with:
- High-performance workstations
- Server applications and virtualization
- Scientific computing and simulations
- Multi-GPU configurations for gaming or rendering
- Data-intensive applications and databases
Manufacturing Technology
The Intel E5-2650v3 Processor is built using a 22nm manufacturing technology. The manufacturing technology refers to the size of the transistors and circuits on the processor's silicon die. A smaller manufacturing technology allows for more transistors to be packed onto the die, resulting in improved performance, energy efficiency, and thermal characteristics.
Benefits of 22nm Manufacturing Technology
The 22nm manufacturing technology offers several benefits to users:
Increased Performance per Watt
With a smaller manufacturing technology, the E5-2650v3 Processor achieves higher performance per watt compared to processors built using larger nodes. This means that users can enjoy improved performance without sacrificing energy efficiency, resulting in lower power consumption and reduced operating costs.
Enhanced Thermals and Overclocking Potential
The 22nm manufacturing technology enables better thermal characteristics, as the smaller transistors generate less heat. This allows for improved overclocking potential, as users can push the processor beyond its base clock speed while maintaining optimal temperatures. Additionally, the lower heat generation contributes to overall system stability.
Higher Transistor Density
A smaller manufacturing technology allows for a higher transistor density on the processor's die. This translates into more transistors available for processing tasks, enabling improved performance and functionality. The higher transistor density also facilitates the integration of advanced features and technologies into the processor.
Importance of Cooling and Power Delivery
When utilizing a processor built using a smaller manufacturing technology, proper cooling and power delivery become crucial. Users should ensure that their system is equipped with effective cooling solutions, such as high-performance CPU coolers, and stable power delivery to maintain optimal temperatures and prevent power-related issues.
Applications that Benefit from 22nm Manufacturing Technology
The 22nm manufacturing technology of the E5-2650v3 Processor is particularly advantageous for users who work with:
- High-performance computing
- Virtualization and cloud computing
- Media encoding and transcoding
- Scientific simulations and modeling
- Resource-intensive applications and workloads
Power Consumption
The Intel E5-2650v3 Processor has a power consumption of 105W. Power consumption refers to the amount of electrical power used by the processor during operation. Lower power consumption not only reduces energy costs but also contributes to improved system efficiency, reduced heat generation, and longer component lifespan.
Benefits of Low Power Consumption
Low power consumption provides several benefits to users:
Reduced Energy Costs
A processor with lower power consumption helps in reducing energy costs over time. By consuming less electrical power, the E5-2650v3 Processor allows users to save on electricity bills while still delivering impressive performance for their computing needs.
Improved System Efficiency
A lower power consumption contributes to improved system efficiency as less electrical power is being wasted as heat. This results in reduced heat generation and lower cooling requirements, allowing for quieter operation and a more comfortable computing environment.