Dell DPK84 Xeon E5-2450 v2 8 Core Processor QPI 2.50GHz 20MB L3 Cache
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Product Details
Overview of the Processor
The Dell DPK84 Xeon processor is a powerful 8-core unit designed for high-performance computing tasks. Operating at a base frequency of 2.5 GHz, this processor efficiently handles demanding applications and workloads.
General Specifications
- Manufacturer: Dell
- Product Type: CPU & Processor
- Part Number: DPK84
- Model Number: E5-2450 V2
Technical Characteristics
Core Features
- Core Count: 8 cores
- Base Clock Speed: 2.5 GHz
- Max Turbo Frequency: 3.3 GHz
- QuickPath Interconnect (QPI) Speed: 8 GT/s
- Instruction Set: 64-bit
- Instruction Set Extensions: AVX
Cache Memory
This processor is equipped with a robust 20 MB L3 cache, ensuring rapid access to frequently used data.
Manufacturing Process
- Transistor Technology: 22 nm
- Max Thermal Design Power (TDP): 95 W
- Supported Socket Type: FCLGA-1356
Key Advantages
- Enhanced multitasking capabilities due to 8-core architecture.
- Improved performance in compute-intensive applications with a max turbo frequency of 3.3 GHz.
- Efficient thermal management with a low TDP of 95 W, ideal for power-conscious builds.
- Compatibility with a wide range of server and workstation motherboards using the FCLGA-1356 socket.
QPI: Enhanced Performance and Efficiency
The Dell Xeon E5-2450 v2 Processor is equipped with the QPI (Quick Path Interconnect) feature, which plays a crucial role in enhancing the performance and efficiency of the processor. With a clock speed of 2.50GHz, the QPI feature enables seamless communication between the processor and other components, ensuring faster data transfer rates and improved system responsiveness.
Efficient Data Transfer
QPI acts as a high-speed interconnect between the processor and other core components of the server, such as memory and I/O devices. This interconnect enables efficient data transfer, allowing for swift access to data stored in memory or connected devices. As a result, users experience reduced latency and faster processing speeds, leading to improved overall system performance.
Enhanced Scalability
The QPI technology also provides enhanced scalability for multi-socket systems. By facilitating fast and reliable communication between multiple processors, it allows for seamless coordination and distribution of workload across the system. This scalability ensures optimal utilization of resources and enables users to handle demanding tasks efficiently.
Improved System Responsiveness
With a clock speed of 2.50GHz, the QPI feature significantly enhances system responsiveness. It minimizes the time taken for data to travel between different components of the server, reducing bottlenecks and potential performance issues. This results in a more fluid user experience, especially when running resource-intensive applications or multitasking.
Efficient Workload Distribution
QPI plays a vital role in workload distribution across cores and processors. It enables efficient sharing of tasks among different cores, ensuring that each core receives an equal workload based on its capabilities. This intelligent distribution improves overall system efficiency by preventing any single core from being overwhelmed while others remain idle.
Importance of 2.50GHz Clock Speed
The 2.50GHz clock speed of the QPI feature is a significant advantage for users. It indicates the speed at which data can be transmitted between the processor and other components. A higher clock speed translates to faster data transfer rates and improved system performance.
Benefits of QPI for Users
- Enhanced system performance: The QPI feature enables faster data transfer, reducing latency and improving overall system performance.
- Seamless scalability: With its ability to facilitate communication between multiple processors, QPI ensures efficient workload distribution and optimal resource utilization in multi-socket systems.
- Improved responsiveness: The QPI feature minimizes delays caused by data transfer, resulting in a more responsive system, particularly when running demanding applications.
- Efficient workload distribution: QPI intelligently distributes tasks among cores, preventing overloading of individual cores and maximizing system efficiency.
Cores: Powerhouse for Multitasking
The Dell Xeon E5-2450 v2 Processor is equipped with 8 cores, making it a powerhouse for multitasking and high-performance computing. These cores work in harmony to handle multiple tasks simultaneously, ensuring smooth execution and improved productivity.
Simultaneous Multithreading (SMT)
Each core of the Dell Xeon E5-2450 v2 Processor supports Simultaneous Multithreading (SMT), which allows for the execution of multiple threads within a single core. SMT enhances the CPU's ability to handle parallel workloads by efficiently utilizing available resources. This technology enables users to run multiple applications or tasks simultaneously without compromising performance.
Increased Processing Power
The 8-core configuration of the Dell Xeon E5-2450 v2 Processor provides substantial processing power, allowing users to tackle resource-intensive tasks with ease. Each core can independently execute instructions, enabling efficient parallel processing and faster completion of complex calculations. Whether it's running virtual machines, rendering videos, or performing data analysis, the processor's multiple cores work together to deliver exceptional performance.
Efficient Multitasking
Multitasking is a breeze with the Dell Xeon E5-2450 v2 Processor's 8 cores. Each core can handle a separate task concurrently, ensuring smooth operation even when running numerous applications simultaneously. This capability is particularly beneficial for professionals who require multitasking capabilities, such as content creators, data analysts, and software developers.
Improved Performance in Virtualized Environments
The 8 cores of the Dell Xeon E5-2450 v2 Processor are highly advantageous in virtualized environments. Virtualization involves running multiple virtual machines concurrently, and each virtual machine requires dedicated processing power. With 8 cores, the processor can efficiently allocate resources to each virtual machine, ensuring optimal performance and responsiveness.
Importance of 8 Cores
The presence of 8 cores in the Dell Xeon E5-2450 v2 Processor significantly impacts its processing capabilities. More cores mean increased parallelism and improved multitasking efficiency.
Benefits of Multiple Cores for Users
- Enhanced multitasking: The 8 cores allow users to work on multiple tasks simultaneously without experiencing significant performance degradation.
- Improved parallel processing: Each core independently executes instructions, enabling faster completion of complex calculations and resource-intensive tasks.
- Efficient resource allocation: In virtualized environments, the processor can allocate resources to each virtual machine effectively, ensuring optimal performance and responsiveness.
- Future-proofing: With applications becoming more demanding and resource-intensive over time, having multiple cores ensures that your system remains capable of handling upcoming challenges.
Cache: Accelerating Data Access
The Dell Xeon E5-2450 v2 Processor features 20MB L3 cache, which plays a vital role in accelerating data access and improving overall system performance. The cache acts as a high-speed storage area that stores frequently accessed data, reducing latency and enhancing the efficiency of data retrieval.
Reduced Memory Latency
The presence of a large 20MB L3 cache in the Dell Xeon E5-2450 v2 Processor significantly reduces memory latency. When the processor requires data, it first checks the cache before accessing the main memory. Since accessing data from the cache is faster than fetching it from the main memory, this reduces the time taken to retrieve data and minimizes performance bottlenecks caused by memory latency.
Faster Application Execution
The large L3 cache of the Dell Xeon E5-2450 v2 Processor allows for more data to be stored close to the cores, resulting in faster application execution. Frequently accessed instructions and data are readily available in the cache, eliminating the need for time-consuming retrieval from main memory. This leads to improved application responsiveness and faster task completion.
Improved Overall System Performance
The 20MB L3 cache significantly contributes to improved overall system performance. By reducing memory latency and accelerating data access, it ensures that the processor can quickly retrieve the required data for efficient execution of tasks. This results in a smoother user experience and enhanced productivity, regardless of the workload.
Efficient Virtual Machine Performance
In virtualized environments, where multiple virtual machines share system resources, a large cache becomes even more crucial. The 20MB L3 cache enables efficient resource sharing among virtual machines by storing frequently accessed data closer to the cores. This ensures that each virtual machine has rapid access to its required data, resulting in improved performance and responsiveness.
Importance of 20MB L3 Cache
The 20MB L3 cache of the Dell Xeon E5-2450 v2 Processor is essential for efficient data access and improved system performance. It reduces memory latency, accelerates application execution, and enhances overall system responsiveness.
Benefits of L3 Cache for Users
- Reduced memory latency: The large L3 cache minimizes the time taken to retrieve data, reducing memory latency and improving overall system performance.
- Faster application execution: Frequently accessed instructions and data are readily available in the cache, resulting in faster application execution and improved user experience.
- Improved multitasking: The cache allows for efficient resource sharing among virtual machines, ensuring optimal performance and responsiveness in virtualized environments.
- Enhanced productivity: Rapid data access and reduced latency enable users to complete tasks more quickly, resulting in enhanced productivity.