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Cisco UCS CPU E5-2609E Intel Xeon 8-core 1.7GHz 20MB L3 Cache 6.4GT QPI CPU UCS-CPU-E52609E

UCS-CPU-E52609E
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Brief Overview of UCS-CPU-E52609E

Cisco UCS-CPU-E52609E UCS CPU E5-2609E Intel Xeon 8-core 1.7GHz 20MB L3 Cache 6.4GT QPI CPU & Processors. New (System) Pull with 6-Month Replacement Warranty
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SKU/MPNUCS-CPU-E52609EAvailability✅ In StockProcessing TimeUsually ships same day ManufacturerCisco Product/Item ConditionNew (System) Pull ServerOrbit Replacement WarrantySix-Month (180 Days)
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Description

Cores

The Cisco UCS CPU E5-2609E Intel Xeon is equipped with 8 cores, making it a powerful processor for various computing tasks. With 8 cores, this CPU can handle multiple threads simultaneously, allowing for efficient multitasking and improved overall performance.

Improved Multitasking

Having 8 cores means that the CPU can handle more tasks at the same time without sacrificing speed or performance. This is especially beneficial for users who need to run multiple applications simultaneously or perform resource-intensive tasks such as video editing or 3D rendering.

With each core capable of executing instructions independently, the CPU can distribute the workload across multiple cores, ensuring that each task receives dedicated processing power. This results in faster and more efficient multitasking, reducing the time it takes to complete complex tasks.

Enhanced Parallel Processing

The presence of 8 cores also enables enhanced parallel processing capabilities. Parallel processing refers to the ability to divide a task into smaller sub-tasks and execute them concurrently, significantly reducing processing time.

For example, when running a complex simulation or performing scientific calculations, each core can work on a different part of the problem simultaneously. This greatly accelerates the overall processing speed and allows for quicker results.

Optimized Performance for Demanding Applications

The 8 cores in the Cisco UCS CPU E5-2609E Intel Xeon provide ample power to handle demanding applications and workloads. Whether you're running resource-intensive software like virtualization platforms or databases, or engaging in data analysis or machine learning tasks, this processor ensures smooth and efficient performance.

In addition, the availability of more cores means that each core can run at lower utilization levels, reducing the risk of overheating and improving overall system stability.

Base Clock Speed

The Cisco UCS CPU E5-2609E Intel Xeon boasts a base clock speed of 1.7GHz. The base clock speed represents the frequency at which the CPU operates under normal conditions, without any overclocking or turbo boost.

Reliable and Stable Performance

A higher base clock speed ensures that the CPU can handle everyday tasks with ease, providing reliable and stable performance. This is particularly important for users who rely on consistent processing power for their work or gaming needs.

With a base clock speed of 1.7GHz, this processor delivers enough power to handle common applications and tasks, such as web browsing, document editing, and multimedia playback, without experiencing slowdowns or lag.

Efficient Power Management

The base clock speed also plays a role in power management. By operating at a lower frequency when idle or under light loads, the CPU can conserve energy and reduce power consumption.

This feature is particularly beneficial for mobile devices or systems that prioritize energy efficiency, as it helps prolong battery life and reduces overall energy costs.

Overclocking Potential

While the base clock speed represents the processor's default operating frequency, it is important to note that some CPUs can be overclocked to achieve higher speeds. Overclocking involves increasing the clock speed beyond the manufacturer's specifications to gain additional performance.

Although the Cisco UCS CPU E5-2609E Intel Xeon has a modest base clock speed of 1.7GHz, it may still offer potential for overclocking depending on the motherboard and system configuration. This allows users to push the limits of their CPU's performance and extract even more power when needed.

Cache

The Cisco UCS CPU E5-2609E Intel Xeon features a 20MB L3 cache, which is essential for improving overall system performance and responsiveness. The cache acts as a high-speed memory bank that stores frequently accessed data, allowing for faster retrieval and processing.

Faster Data Access

With a larger cache, the CPU can store more data closer to the cores, reducing the time it takes to access that data. This results in faster data retrieval and processing, improving overall system performance.

When an application needs to access data, the CPU first checks if it is available in the cache. If the data is present, it can be retrieved immediately, eliminating the need to access slower main memory. This significantly reduces latency and improves the system's responsiveness.

Improved Efficiency

A larger cache size also helps improve system efficiency by reducing the number of trips the CPU needs to make to main memory. Since main memory access is slower compared to cache access, minimizing these trips results in less waiting time for the CPU, improving overall efficiency.

This is particularly beneficial for applications that heavily rely on data manipulation or frequently access large datasets. Examples include database servers, scientific simulations, and high-performance computing tasks.

Enhanced Gaming Performance

The 20MB L3 cache in the Cisco UCS CPU E5-2609E Intel Xeon can significantly enhance gaming performance. Games often require quick access to various textures, models, and other game assets. With a larger cache size, these assets can be stored closer to the CPU's cores for faster retrieval.

This reduces loading times, eliminates stuttering and lag during gameplay, and provides smoother overall gaming experience. Additionally, games that heavily rely on real-time physics simulations or AI computations can also benefit from the improved processing speed offered by the cache.

Qpi

The Cisco UCS CPU E5-2609E Intel Xeon features a QPI (Quick Path Interconnect) speed of 6.4GT. The QPI is responsible for connecting the CPU to other components in the system, such as memory and peripherals.

High-Speed Data Transfer

A faster QPI speed allows for high-speed data transfer between the CPU and other components, improving overall system performance. The 6.4GT QPI speed ensures that data can be quickly and efficiently exchanged, reducing latency and bottlenecks.

When data needs to be transferred between the CPU and memory, a faster QPI speed ensures that large amounts of data can be moved swiftly, allowing for quicker processing and improved system responsiveness.

Improved Scalability

The QPI speed also plays a crucial role in system scalability. Systems with multiple processors or CPUs rely on efficient communication between these processors to distribute the workload effectively.

A faster QPI speed enables better communication and coordination between multiple processors, ensuring that tasks are distributed evenly and efficiently. This results in improved scalability, allowing for the addition of more CPUs without sacrificing performance.

Optimized Performance for Virtualization

Virtualization is a technology that allows multiple virtual machines to run on a single physical machine. This requires efficient communication between the virtual machines and the underlying hardware.

A faster QPI speed is particularly important for virtualized environments as it ensures smooth and efficient communication between the CPU and virtual machines. This enables optimal performance for virtualization platforms, allowing for more virtual machines to be run simultaneously with minimal impact on performance.

Features
Product/Item Condition:
New (System) Pull
ServerOrbit Replacement Warranty:
Six-Month (180 Days)