Intel Xeon X5650 2.66GHz 1.5MB L2 12MB L3 6.4GT/S Qpi 1366 32NM 95W Processor AT80614004320AD
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Cores
The Intel X5650 Processor is equipped with 6 cores, making it a powerful choice for users who require high-performance computing. With each core capable of executing multiple tasks simultaneously, the processor offers enhanced multitasking capabilities and improved overall system performance.
Key Specifications of AT80614004320AD
- Brand: Intel
- Part Number: AT80614004320AD
- Type: Processor
- Sub-Type: Intel Xeon 6 Core
Performance and Processing Capabilities
- Core Count: Six Cores
- Base Clock Speed: 2.66 GHz
- L2 Cache: 1.5 MB
- L3 Cache: 12 MB
- Quick Path Interconnect (QPI) Speed: 6.4 GT/s
Socket and Compatibility
- Socket Type: FCLGA-1366
- Process Technology: 32nm
- 64-Bit Instruction Set: Yes
- Instruction Set Extensions: SSE4.2
Thermal and Power Specifications
- Maximum TDP (Thermal Design Power): 95W
Advanced Features and Technologies
- Intel Turbo Boost Technology: Enhances performance by dynamically increasing the clock speed when required
- Intel Hyper-Threading Technology (HT): Supports multi-threading, allowing better multitasking
- Intel Virtualization Technology (Intel VT): Enables efficient virtual machine operation
- Intel Trusted Execution Technology (Intel TXT): Enhances security by providing hardware-based mechanisms for software environments
Enhanced Processing Efficiency
- Turbo Boost: Automatically accelerates processing speed for demanding tasks
- Hyper-Threading: Allows each core to handle multiple threads, improving overall performance
Virtualization and Security Technologies
- Intel Virtualization (VT): Boosts performance in virtual environments, ensuring smooth operation of virtual machines
- Intel Trusted Execution (TXT): Provides enhanced hardware-based security for sensitive data and environments
Benefits of 6 Cores
Having 6 cores in a processor provides several benefits to users:
1. Increased Processing Power
The additional cores in the Intel X5650 Processor allow for more simultaneous processing, resulting in faster and more efficient execution of tasks. Whether you are running resource-intensive applications, rendering complex graphics, or performing data analysis, the increased processing power can significantly improve your productivity and reduce waiting times.
2. Improved Multitasking
With 6 cores, the processor can handle multiple tasks simultaneously without sacrificing performance. You can run multiple applications simultaneously without experiencing lag or slowdowns. This is particularly beneficial for professionals who work with demanding software suites or individuals who enjoy gaming while streaming or performing other tasks in the background.
3. Enhanced Performance in Parallel Processing
Parallel processing refers to the ability of a computer system to divide complex tasks into smaller sub-tasks that can be executed concurrently. The 6 cores in the Intel X5650 Processor enable efficient parallel processing, allowing for faster execution of tasks that can be divided into independent sub-tasks. This is particularly advantageous for tasks such as video editing, scientific simulations, or rendering large 3D models.
Importance of 6 Cores
The importance of having 6 cores in a processor lies in its ability to handle demanding workloads efficiently. With the increasing complexity of software applications and the growing need for multitasking, having more cores becomes crucial for optimal performance. The Intel X5650 Processor's 6 cores ensure that users can tackle resource-intensive tasks with ease and enjoy a seamless computing experience.
Feature | Value |
---|---|
Cores | 6 |
Base Clock Speed
The Intel X5650 Processor operates at a base clock speed of 2.66GHz. This clock speed defines the frequency at which the processor executes instructions and performs calculations. The base clock speed plays a crucial role in determining the overall performance and responsiveness of the system.
Benefits of 2.66GHz Base Clock Speed
The 2.66GHz base clock speed of the Intel X5650 Processor offers several benefits to users:
1. Faster Execution of Instructions
A higher base clock speed allows the processor to execute instructions at a faster rate, resulting in quicker response times and improved overall system performance. This is especially noticeable when performing tasks that require rapid data processing, such as gaming, video editing, or running complex software applications.
2. Smooth Multitasking Experience
The 2.66GHz base clock speed ensures that the processor can handle multiple tasks simultaneously without experiencing significant performance degradation. This is particularly important for users who frequently multitask or run resource-intensive applications, as it allows for smoother transitions between different tasks and reduces lag.
3. Optimized Performance in Single-Threaded Applications
While multi-threaded applications can take advantage of the processor's multiple cores, some software applications still rely heavily on single-threaded performance. The 2.66GHz base clock speed ensures that even single-threaded applications can benefit from faster execution times, resulting in improved responsiveness and efficiency.
Importance of 2.66GHz Base Clock Speed
The importance of the 2.66GHz base clock speed lies in its ability to provide a balance between performance and power consumption. It allows users to handle demanding tasks efficiently while maintaining reasonable energy efficiency. The Intel X5650 Processor's base clock speed ensures that users can enjoy a responsive and powerful computing experience without compromising on energy consumption.
Feature | Value |
---|---|
Base Clock Speed | 2.66GHz |
L2 Cache
The Intel X5650 Processor features a 1.5MB L2 cache. The L2 cache is a type of memory that is located closer to the processor cores, providing quick access to frequently used data and instructions. It plays a crucial role in improving overall system performance by reducing memory latency and enhancing data retrieval speeds.
Benefits of 1.5MB L2 Cache
The inclusion of a 1.5MB L2 cache in the Intel X5650 Processor offers several benefits to users:
1. Improved Data Access Speed
The L2 cache acts as a buffer between the processor cores and the main memory, allowing for faster access to frequently accessed data and instructions. This results in reduced memory latency and improved overall system performance, especially in tasks that require frequent data retrieval, such as gaming or multimedia editing.
2. Enhanced Multitasking Performance
The presence of a larger L2 cache enables the processor to store more data and instructions, facilitating smooth multitasking. This is particularly beneficial when running multiple applications simultaneously or switching between different tasks frequently. The larger L2 cache ensures that the processor has quick access to the necessary data, reducing potential bottlenecks and improving multitasking performance.
3. Efficient CPU Core Utilization
The L2 cache helps optimize CPU core utilization by reducing the need to fetch data and instructions from the main memory. This allows the processor cores to operate at higher efficiency levels, resulting in improved overall system performance and responsiveness.
Importance of 1.5MB L2 Cache
The 1.5MB L2 cache is important as it enhances the processor's ability to handle complex tasks efficiently. By reducing memory latency and improving data retrieval speeds, the L2 cache ensures that users can enjoy a smooth computing experience, even when dealing with resource-intensive applications or multitasking scenarios.
Feature | Value |
---|---|
L2 Cache | 1.5MB |
L3 Cache
The Intel X5650 Processor is equipped with a generous 12MB L3 cache. The L3 cache, similar to the L2 cache, stores frequently accessed data and instructions but on a larger scale. It acts as a shared resource for all processor cores, facilitating efficient data sharing and further improving overall system performance.
Benefits of 12MB L3 Cache
The inclusion of a 12MB L3 cache in the Intel X5650 Processor provides several benefits to users:
1. Improved Data Sharing Among Cores
The larger L3 cache allows for efficient data sharing among all processor cores. This is particularly beneficial when executing multi-threaded applications or running tasks that require extensive cooperation between multiple cores. The increased capacity of the L3 cache reduces the need for frequent data retrieval from the main memory, enhancing overall system performance and reducing potential bottlenecks.
2. Enhanced Performance in Memory-Intensive Tasks
Tasks that involve heavy memory usage, such as large-scale data processing or running virtual machines, can benefit significantly from the 12MB L3 cache. The larger cache size enables the processor to store more data and instructions, reducing the need for frequent access to the main memory. This results in improved performance and responsiveness in memory-intensive tasks.
3. Optimized CPU Core Utilization
The presence of a substantial L3 cache ensures efficient CPU core utilization by providing ample space to store frequently accessed data and instructions. This allows the processor cores to operate at higher efficiency levels, improving overall system performance and responsiveness.
Importance of 12MB L3 Cache
The importance of the 12MB L3 cache lies in its ability to enhance overall system performance by facilitating efficient data sharing among processor cores. By reducing memory latency and enabling faster access to frequently accessed data, the L3 cache ensures smooth execution of both single-threaded and multi-threaded tasks.
Feature | Value |
---|---|
L3 Cache | 12MB |
QPI Speed
The Intel X5650 Processor operates at a QPI (QuickPath Interconnect) speed of 6.4GT/s. QPI is a high-speed interconnect technology used by Intel processors to connect the processor to other components, such as memory and peripherals. The QPI speed plays a crucial role in determining the bandwidth and speed at which data can be transferred between different components.
Benefits of 6.4GT/s QPI Speed
The 6.4GT/s QPI speed in the Intel X5650 Processor provides several benefits to users:
1. Faster Data Transfer
The higher QPI speed allows for faster data transfer between the processor and other components, such as memory modules or graphics cards. This results in reduced latency and improved overall system performance, especially in tasks that involve significant data transfers, such as large file transfers or real-time multimedia processing.
2. Improved System Responsiveness
With a faster QPI speed, the Intel X5650 Processor ensures improved system responsiveness, as data can be transferred quickly and efficiently between different components. This is particularly noticeable when launching applications, loading files, or performing tasks that require frequent data exchanges between the processor and memory.
3. Enhanced Scalability
The higher QPI speed enables better scalability in multi-processor systems. It allows for efficient communication between multiple processors, ensuring seamless coordination and synchronization of tasks. This is particularly important for users who require high-performance computing solutions or run applications that can take advantage of multiple processors.
Importance of 6.4GT/s QPI Speed
The importance of the 6.4GT/s QPI speed lies in its ability to provide fast and efficient data transfer between the processor and other components. By reducing latency and improving system responsiveness, the QPI speed ensures that users can enjoy a smooth computing experience, regardless of the complexity of their tasks or the demands placed on the system.
Feature | Value |
---|---|
QPI Speed | 6.4GT/s |
Socket Type
The Intel X5650 Processor utilizes a socket type of 1366. The socket type refers to the physical interface between the processor and the motherboard, allowing for proper installation and communication between the two components. The socket type is an important consideration when selecting compatible motherboards for the processor.
Benefits of Socket Type 1366
The use of a socket type 1366 in the Intel X5650 Processor provides several benefits to users:
1. Wide Range of Compatible Motherboards
The socket type 1366 is widely supported by various motherboard manufacturers, ensuring a wide selection of compatible options. This allows users to choose a motherboard that suits their specific needs and preferences, whether they require advanced features, overclocking capabilities, or a specific form factor.
2. Support for High-Performance Features
Socket type 1366 is commonly associated with high-performance processors, such as the Intel X5650. This means that motherboards supporting this socket type are designed to handle demanding workloads and provide features tailored for power users or professionals who require top-tier performance.
3. Scalability and Upgradability
The use of socket type 1366 ensures scalability and upgradability for users. As newer processors are released with the same socket type, users can easily upgrade their systems without the need to replace the entire motherboard. This allows for future-proofing and cost-effective system upgrades.
Importance of Socket Type 1366
The importance of socket type 1366 lies in its compatibility with high-performance processors and its wide range of supported motherboards. By using this socket type, the Intel X5650 Processor ensures that users have access to a diverse selection of motherboards that can meet their specific requirements, while also providing scalability and upgradability options.
Feature | Value |
---|---|
Socket Type | 1366 |
Manufacturing Technology
The Intel X5650 Processor is built using a 32nm manufacturing technology. The manufacturing technology refers to the size of the transistors and other components on the processor chip. A smaller manufacturing technology allows for more transistors to be packed onto the chip, resulting in improved performance, power efficiency, and reduced heat generation.
Benefits of 32nm Manufacturing Technology
The use of a 32nm manufacturing technology in the Intel X5650 Processor provides several benefits to users:
1. Increased Performance
The smaller transistor size achieved through 32nm manufacturing technology allows for more transistors to be integrated into the processor chip. This results in increased processing power, as more transistors can perform calculations simultaneously. Users can expect improved performance in tasks that require substantial computational power, such as gaming, multimedia editing, or scientific simulations.
2. Enhanced Power Efficiency
The use of a smaller manufacturing technology enables the processor to operate at lower voltages without sacrificing performance. This leads to improved power efficiency, reducing energy consumption and heat generation. The Intel X5650 Processor's 32nm manufacturing technology ensures that users can enjoy high-performance computing without excessive power draw or heat dissipation.
3. Reduced Heat Generation
Smaller transistors and components on the chip result in reduced heat generation, as they require less power to operate. This is especially important for maintaining stable system temperatures and ensuring reliable performance, particularly in systems with limited cooling capabilities or when operating in high ambient temperatures.
Importance of 32nm Manufacturing Technology
The importance of 32nm manufacturing technology lies in its ability to provide a balance between performance and power efficiency. By utilizing smaller transistors and components, the Intel X5650 Processor ensures that users can experience high-performance computing without excessive power consumption or heat generation. The 32nm manufacturing technology contributes to the overall reliability and longevity of the processor.
Feature | Value |
---|---|
Manufacturing Technology | 32NM |
Thermal Design Power
The Intel X5650 Processor has a thermal design power (TDP) of 95W. TDP refers to the maximum amount of heat generated by the processor that the cooling system needs to dissipate. The TDP value is an important consideration when selecting compatible cooling solutions for the processor.
Benefits of 95W TDP
The 95W TDP of the Intel X5650 Processor offers several benefits to users:
1. Efficient Heat Dissipation
The TDP value indicates the amount of heat that needs to be dissipated by the cooling system. With a TDP of 95W, the processor requires a cooling solution capable of efficiently dissipating this amount of heat, ensuring stable operation and preventing thermal throttling. Users can select cooling solutions that match the TDP requirements, ensuring optimal performance and longevity.
2. Compatibility with Various Cooling Solutions
The 95W TDP is a common value for processors in its class, making it compatible with a wide range of cooling solutions available in the market. Users have the flexibility to select cooling solutions that suit their specific needs, whether it be air cooling, liquid cooling, or specialized thermal management systems.