Intel Xeon SR1AG 10-Core 2.40GHz 8.00GT/S QPI 25MB L3 Processor

Core Count: 10

The Intel Xeon Processor is equipped with a remarkable core count of 10, making it an exceptional choice for users who require high-performance computing power. The core count refers to the number of independent processing units within a single CPU, and a higher core count translates to improved multitasking capabilities and overall system performance.

Improved Multithreading

With 10 cores at their disposal, users can effortlessly handle numerous tasks simultaneously without experiencing any significant performance bottlenecks. This is particularly beneficial for professionals in fields such as video editing, 3D rendering, and scientific simulations, where complex computations and data processing are often required. The additional cores allow for efficient multitasking, ensuring smooth operation even when running resource-intensive applications.

Enhanced Performance and Speed

The increased core count directly translates to improved performance and speed. Each core can independently execute instructions, allowing for parallel processing and reduced processing times. This means that tasks can be completed faster, resulting in increased productivity and reduced waiting times for users.

Improved Virtualization

The Intel Xeon Processor's 10-core count also makes it an excellent choice for virtualization environments. Virtualization allows multiple operating systems or virtual machines to run simultaneously on a single physical server. With more cores available, users can allocate resources more efficiently, ensuring optimal performance for each virtual machine. This is especially advantageous for businesses that rely on virtualization technology to consolidate servers, reduce hardware costs, and improve overall efficiency.

Seamless Scalability

In addition to the immediate benefits of having 10 cores, the Intel Xeon Processor also offers scalability. This means that users can easily add more processors to their systems as their computing needs grow. By increasing the total number of cores, users can further enhance their system's performance and handle increasingly demanding workloads with ease.

Base Clock Speed: 2.40GHz

The Intel Xeon Processor boasts a base clock speed of 2.40GHz, which plays a crucial role in determining the overall performance and responsiveness of the CPU. The base clock speed represents the frequency at which the processor operates under normal conditions, without any turbo boost or overclocking applied.

Efficient Task Execution

A higher base clock speed directly translates to faster task execution. The 2.40GHz base clock speed ensures that the processor can handle demanding applications and tasks with ease. Whether you're running complex calculations, compiling code, or editing high-resolution videos, the Intel Xeon Processor's base clock speed ensures that your system remains responsive and capable of handling these tasks efficiently.

Single-Threaded Applications

While many modern applications are designed to take advantage of multiple cores, there are still plenty of single-threaded applications that rely on a single core for execution. In such cases, a higher base clock speed becomes crucial for achieving optimal performance. The 2.40GHz base clock speed ensures that even single-threaded applications run smoothly and without any noticeable lag or slowdowns.

Fast Data Processing

When it comes to data-intensive tasks, such as large-scale database management or real-time analytics, a higher base clock speed is essential for quick data processing. The Intel Xeon Processor's 2.40GHz base clock speed allows for efficient data retrieval, analysis, and manipulation, enabling businesses to make faster data-driven decisions and gain a competitive edge.

Optimized Power Consumption

Despite its impressive base clock speed, the Intel Xeon Processor also ensures efficient power consumption. By carefully balancing performance and power requirements, the processor delivers exceptional performance without unnecessarily draining power or generating excessive heat. This makes it an ideal choice for both high-performance workstations and server environments where power efficiency is a top priority.

QPI Speed: 8.00GT/S

The QuickPath Interconnect (QPI) speed of the Intel Xeon Processor stands at an impressive 8.00GT/s. The QPI is responsible for connecting the processor to other components in the system, such as memory and input/output devices. The higher the QPI speed, the faster data can be transferred between these components, resulting in improved system performance.

Enhanced System Responsiveness

The 8.00GT/s QPI speed ensures that data can be rapidly transmitted between the processor and other system components. This enhances system responsiveness, reducing latency, and ensuring that tasks are executed promptly. Whether you're accessing files from storage, interacting with peripherals, or performing memory-intensive operations, the high QPI speed guarantees a smooth user experience.

Improved Memory Bandwidth

A higher QPI speed enables faster data transfers between the processor and memory modules. This results in improved memory bandwidth, allowing for quicker access to data stored in RAM. Applications that heavily rely on memory access, such as virtualization or data analysis tools, benefit significantly from the enhanced memory bandwidth provided by the 8.00GT/s QPI speed.

Efficient I/O Operations

The QPI speed also plays a vital role in facilitating efficient input/output (I/O) operations. With an 8.00GT/s QPI speed, the Intel Xeon Processor can handle high volumes of data transfers to and from external devices, such as storage drives or network interfaces. This ensures that data-intensive operations, such as large file transfers or network communications, can be performed quickly and without any bottlenecks.

Seamless Scalability

Similar to the core count, the QPI speed also contributes to the Intel Xeon Processor's scalability. As users expand their systems with additional processors, the high QPI speed allows for efficient communication between multiple processors, ensuring optimal performance and data synchronization across the entire system. This scalability is particularly valuable in enterprise environments where large-scale computing power is required.

L3 Cache: 25MB

The Intel Xeon Processor is equipped with a generous L3 cache size of 25MB. The L3 cache acts as a high-speed memory buffer between the processor cores and the main system memory (RAM). It stores frequently accessed data and instructions, enabling faster retrieval and reducing the latency associated with accessing information from RAM.

Improved Instruction Retrieval

The 25MB L3 cache size allows for a larger portion of frequently accessed instructions to be stored closer to the processor cores. This reduces the time required to retrieve instructions, resulting in faster execution of tasks and improved overall system performance. Applications that heavily rely on repetitive calculations or complex algorithms benefit greatly from the increased efficiency provided by the large L3 cache.

Enhanced Data Access

In addition to storing instructions, the L3 cache also holds frequently accessed data. By having a larger cache size, the Intel Xeon Processor can keep more data readily available for immediate access by the processor cores. This reduces the need to fetch data from RAM, which is a slower process. Consequently, applications that rely on large datasets or perform frequent data manipulations witness a significant boost in performance.

Efficient Multi-Core Utilization

The L3 cache also plays a vital role in optimizing multi-core performance. With 25MB of cache available, each core has ample space to store frequently accessed data and instructions. This leads to reduced contention for shared resources and better utilization of the processor's capabilities. The large L3 cache ensures that each core has access to the necessary data without waiting for data transfers between cores, resulting in improved overall efficiency and performance.

Seamless Virtualization

Virtualization environments heavily rely on efficient memory management and resource allocation. The Intel Xeon Processor's 25MB L3 cache size contributes to seamless virtualization by providing an ample cache pool that can be efficiently distributed among multiple virtual machines. This ensures that each virtual machine has sufficient access to cached data, resulting in improved performance and reduced latency.

SR Number: SR1AG

The SR Number of the Intel Xeon Processor is SR1AG. While this alphanumeric code may seem insignificant to the average user, it serves an essential purpose in identifying the specific model and features of the processor.

Product Identification

The SR Number acts as a unique identifier for the Intel Xeon Processor model. It distinguishes the processor from other models within the same product line, allowing users to easily identify and compare different processors based on their features and specifications. This makes it particularly useful for system builders, IT professionals, and enthusiasts who require specific processor configurations for their projects.

Compatible Upgrade Path

The SR Number also plays a crucial role in determining the compatibility of processors with existing systems. By referencing the SR Number, users can ensure that they are selecting a compatible processor that aligns with their system's socket type, chipset, and other requirements. This helps prevent compatibility issues and ensures a hassle-free upgrade experience.

Feature Comparison

When comparing processors within the Intel Xeon family, the SR Number becomes a valuable tool for distinguishing between different models and their respective features. Users can quickly refer to the SR Number to identify specific attributes, such as core count, clock speed, cache size, and other performance-enhancing features. This enables users to make informed decisions based on their specific computing needs and requirements.

Future Reference

The SR Number also serves as a reference point for future troubleshooting or support needs. By noting down the SR Number during the initial setup or acquisition of the processor, users can easily reference it when seeking technical assistance or verifying warranty coverage. This simplifies the support process and ensures that users receive the appropriate guidance or replacement components if required.