Cisco UCS-CPU-E52697AE Intel Xeon E5-2697av4 16-core 2.6GHZ 40mb L3 Cache 9.6GT/s Qpi

Core Count: 16

Maximize Performance

The Intel Xeon E5-2697av4 Processor is equipped with an impressive core count of 16, making it a powerhouse for high-performance computing tasks. With such a large number of cores, this processor can handle multiple tasks simultaneously, allowing for efficient multitasking and improved overall system performance. Whether you're running complex simulations, rendering graphics, or analyzing large datasets, the 16 cores of the E5-2697av4 Processor ensure that your system can handle demanding workloads without any lag or slowdown.

Enhanced Parallel Processing

Parallel processing is essential in modern computing environments, where tasks are divided into smaller sub-tasks that can be processed simultaneously. The 16 cores of the E5-2697av4 Processor enable efficient parallel processing, allowing for faster execution of complex algorithms and calculations. This is particularly beneficial for applications that require massive parallelization, such as scientific simulations, financial modeling, and video editing. With its 16 cores, this processor delivers exceptional performance in parallel workloads, reducing processing time and improving productivity.

Improved Virtualization Capabilities

In virtualized environments, where multiple virtual machines (VMs) run concurrently on a single physical server, the core count becomes crucial. The 16 cores of the E5-2697av4 Processor enable efficient virtualization by providing sufficient processing power to handle multiple VMs simultaneously. This means that you can run more virtual machines on a single server without compromising performance. Whether you're deploying a cloud infrastructure or running a virtualized data center, the high core count of this processor ensures smooth operation and optimal resource utilization.

Optimized Software Utilization

Many software applications are designed to take advantage of multiple cores, as they can divide their tasks among different cores for faster execution. With 16 cores, the E5-2697av4 Processor allows software to fully utilize its processing power, resulting in faster application performance. Whether you're running resource-intensive applications like 3D modeling or scientific simulations, or simply multitasking with several demanding programs, the high core count ensures that your software can take full advantage of the processor's capabilities, delivering a smooth and responsive user experience.

Base Clock Speed: 2.6GHz

Improved Single-Threaded Performance

The base clock speed of the Intel Xeon E5-2697av4 Processor is 2.6GHz, which refers to the frequency at which the processor operates under normal conditions. A higher base clock speed translates to improved single-threaded performance, as it determines how quickly the processor can execute instructions for a single task. This is particularly important for applications that rely heavily on single-threaded performance, such as gaming or certain productivity software. With a base clock speed of 2.6GHz, this processor ensures snappy and responsive performance in single-threaded tasks.

Efficient Multitasking

In today's digital landscape, multitasking has become an integral part of our daily computing activities. Whether you're editing videos while running multiple browser tabs or working with resource-intensive software, efficient multitasking requires a processor that can handle multiple tasks simultaneously without experiencing lag or slowdowns. The 2.6GHz base clock speed of the E5-2697av4 Processor provides a solid foundation for efficient multitasking by ensuring that each task receives sufficient processing power to execute smoothly.

Dynamic Boosting

While the base clock speed determines the default operating frequency of the processor, modern processors often employ dynamic boosting technologies to increase performance when needed. The E5-2697av4 Processor features Intel Turbo Boost Technology, which allows the processor to dynamically increase its clock speed above the base frequency when additional performance is required. This means that for tasks that demand more processing power, the processor can automatically boost its clock speed to deliver enhanced performance. The combination of a high base clock speed and dynamic boosting ensures optimal performance across a wide range of computing tasks.

Power Efficiency

An often overlooked aspect of base clock speed is its impact on power efficiency. A higher base clock speed typically requires more power consumption, which can lead to increased energy costs and heat generation. However, the E5-2697av4 Processor strikes a balance between performance and power efficiency with its 2.6GHz base clock speed. By optimizing power consumption without sacrificing performance, this processor offers an energy-efficient solution for both business and personal computing needs.

L3 Cache: 40MB

Reduced Memory Latency

The L3 cache is a level of cache memory located on the processor itself, designed to store frequently accessed data for quick retrieval. The larger the L3 cache, the more data can be stored, reducing the need to access slower system memory. With a generous 40MB L3 cache, the Intel Xeon E5-2697av4 Processor significantly reduces memory latency by allowing the processor to access frequently used data quickly. This results in improved overall system performance and responsiveness, particularly in applications that rely heavily on data-intensive operations.

Enhanced Data Processing

The large L3 cache of the E5-2697av4 Processor enables efficient data processing by providing ample space for storing and accessing data. This is especially beneficial for applications that require extensive data manipulation, such as video editing, 3D rendering, and scientific simulations. With a 40MB L3 cache, this processor can fetch and process large chunks of data without relying heavily on system memory, resulting in faster data processing and improved application performance.

Smarter Caching

The L3 cache also plays a crucial role in caching algorithms, which determine the data that should be stored in the cache for fast retrieval. With a larger cache size, the E5-2697av4 Processor can accommodate a wider range of data, allowing for smarter caching decisions. This means that frequently accessed data can be stored in the cache for longer periods, reducing the need to fetch data from slower memory. As a result, applications running on this processor benefit from more efficient caching, leading to improved performance and reduced latency.

Better Virtual Machine Performance

In virtualized environments, where multiple virtual machines run concurrently on a single physical server, the L3 cache becomes essential for efficient resource sharing. A larger L3 cache allows the processor to store more frequently accessed data from different virtual machines, reducing the need to access slower system memory for each VM. This results in improved performance and reduced latency for virtualized workloads, ensuring smooth operation and optimal resource utilization.

QPI Speed: 9.6GT/s

Faster Data Transfer

The QPI (QuickPath Interconnect) speed of 9.6GT/s refers to the rate at which data is transferred between the processor and other system components. A higher QPI speed translates to faster data transfer, reducing latency and improving overall system performance. With a QPI speed of 9.6GT/s, the Intel Xeon E5-2697av4 Processor ensures efficient communication between the processor and other components such as memory, storage, and peripherals. This is particularly important in data-intensive applications that require fast data transfers, such as database management systems and high-performance computing tasks.

Improved Scalability

The high QPI speed of the E5-2697av4 Processor enables improved scalability by facilitating efficient communication between multiple processors in a system. In multi-socket configurations, where multiple processors work together to handle demanding workloads, a fast QPI speed is crucial for seamless coordination and data sharing. Whether you're building a powerful server or a workstation that requires exceptional processing power, the 9.6GT/s QPI speed ensures that your system can scale effectively to meet your needs.

Reduced Bottlenecks

In modern computing systems, bottlenecks can occur when data transfer rates between components become a limiting factor for performance. A slow QPI speed can lead to bottlenecks, as it restricts the flow of data between the processor and other system components. However, with a high QPI speed of 9.6GT/s, the E5-2697av4 Processor minimizes the risk of bottlenecks by providing ample bandwidth for efficient data transfer. This ensures that data-intensive tasks can be executed smoothly without any performance degradation due to communication limitations.

High-Speed I/O Connectivity

The fast QPI speed of the E5-2697av4 Processor also benefits high-speed I/O connectivity, such as PCIe (Peripheral Component Interconnect Express) lanes used for connecting expansion cards like graphics cards and storage devices. A high QPI speed allows for efficient data transfer between the processor and these devices, ensuring optimal performance and reduced latency. Whether you're gaming, editing videos, or working with demanding applications, the fast QPI speed ensures that your high-speed peripherals can communicate seamlessly with the processor, delivering a smooth and responsive user experience.

Compatible With: Cisco UCS-CPU-E52697AE

Seamless Integration

The Intel Xeon E5-2697av4 Processor is compatible with the Cisco UCS-CPU-E52697AE, ensuring seamless integration into Cisco's Unified Computing System (UCS) infrastructure. This compatibility allows for easy deployment and integration of the E5-2697av4 Processor into existing or new Cisco UCS environments, without the need for additional hardware or software modifications. By choosing a processor that is specifically designed for compatibility with Cisco UCS, users can save time and effort in the installation and configuration process.

Optimized Performance

The compatibility between the E5-2697av4 Processor and Cisco UCS-CPU-E52697AE ensures optimized performance in Cisco UCS environments. The processor is designed to take full advantage of Cisco's advanced features and technologies, allowing users to maximize the performance of their UCS infrastructure. Whether you're running virtualized workloads, managing large databases, or deploying cloud services, the combination of the E5-2697av4 Processor and Cisco UCS ensures that your system operates at peak performance levels.

Reliability and Stability

Cisco UCS is known for its reliability and stability, providing a robust infrastructure for mission-critical applications. The compatibility between the E5-2697av4 Processor and Cisco UCS further enhances this reliability by ensuring seamless operation and compatibility between hardware components. By choosing a processor that is specifically designed for use with Cisco UCS, users can have confidence in the stability and reliability of their system, minimizing the risk of hardware-related issues or compatibility conflicts.

Unified Management

One of the key advantages of Cisco UCS is its unified management interface, which allows for centralized management and monitoring of the entire infrastructure. The compatibility between the E5-2697av4 Processor and Cisco UCS-CPU-E52697AE ensures that the processor can be seamlessly integrated into Cisco's management framework, enabling unified management of all hardware components. This centralized management approach simplifies administration tasks, reduces complexity, and improves overall system efficiency.

In conclusion, the Intel Xeon E5-2697av4 Processor offers exceptional performance and features that cater to the needs of various users. With its 16-core count, users can maximize performance, enhance parallel processing capabilities, improve virtualization efficiency, and optimize software utilization. The 2.6GHz base clock speed provides improved single-threaded performance, efficient multitasking, dynamic boosting, and power efficiency. The generous 40MB L3 cache reduces memory latency, enhances data processing, facilitates smarter caching, and improves virtual machine performance. The 9.6GT/s QPI speed enables faster data transfer, improved scalability, reduced bottlenecks, and high-speed I/O connectivity. Lastly, its compatibility with Cisco UCS-CPU-E52697AE ensures seamless integration, optimized performance, reliability and stability, and unified management in Cisco UCS environments.