Cisco UCS CPU Xeon E5-2667V4 3.2GHz 8-Core 25mb L3 Cache

Detailed Product Overview

General Product Information

• Manufacturer: Intel
• Part Number: UCS-CPU-E52667E
• CPU Series: Intel Xeon E5-2600 v4 Series
• Model: Intel Xeon E5-2667 v4

Key Specifications

Processor Architecture

• Core Count: 8 cores, delivering efficient multi-threaded performance for a wide range of applications.
• Base Clock Speed: 3.2 GHz, providing reliable processing power for demanding tasks.
• Maximum Turbo Frequency: 3.6 GHz, enabling dynamic adjustments to performance as needed.
• Thread Count: 16 threads, allowing for enhanced multitasking capabilities.
• Intel Smart Cache: 25 MB, ensuring rapid data access and efficient processing.

Performance Features

• Intel QPI Speed: 9.6 GT/s, facilitating quick data transfers between processor and memory.
• Number of QPI Links: 2, improving overall bandwidth for high-performance computing environments.
• Instruction Set: 64-bit, supporting modern applications and operating systems.
• Instruction Set Extensions: Advanced Vector Extensions 2.0 (AVX 2.0) for optimized performance in compute-intensive tasks.
• Lithography: 14 nm, enabling efficient power consumption and heat management.

Thermal and Power Specifications

• Thermal Design Power (TDP): 135 W, balancing performance with energy efficiency.
• Socket Supported: FCLGA2011-3, compatible with various server configurations.
• Cooling Device: Not included—processor only, allowing for custom cooling solutions.

Advanced Technologies

• Intel Turbo Boost Technology Support: 2.0, providing automatic performance enhancements for demanding workloads.
• Intel vPro Technology: Yes, offering advanced manageability and security features.
• Intel Hyper-Threading Technology Support: Yes, enabling better utilization of processor resources for improved multitasking.
• Intel Virtualization Technology (VT-x) Support: Yes, facilitating efficient virtualization of servers.
• Intel Virtualization Technology for Direct I/O (VT-d) Support: Yes, enhancing virtualization capabilities for I/O devices.
• Intel TSX-NI Support: Yes, improving transactional processing capabilities.
• Enhanced Intel SpeedStep Technology Support: Yes, for optimized power consumption based on workload.
• Thermal Monitoring Technology: Yes, ensuring safe operating temperatures.

Compatibility and Scalability

• Compatible Systems: Cisco UCS B200 M4, C220 M4, C240 M4, HyperFlex HX220C M4 Node (Unified Computing System), ensuring seamless integration into existing infrastructures.
• Scalability: 2S, allowing for dual-socket configurations to enhance processing capabilities.

Security and Data Protection Features

• Intel Advanced Encryption Standard New Instructions (AES): Yes, providing hardware-based security for sensitive data.
• Secure Key: Yes, enhancing data protection with secure key management.
• Intel Platform Protection Technologies: Included, ensuring robust security measures are in place.

Clock Speed: 3.2GHz

Improved Performance

The Cisco UCS Xeon E5-2667V4 CPU is powered by a clock speed of 3.2GHz, which significantly enhances the overall performance of the processor. With a higher clock speed, the CPU can execute more instructions per second, resulting in faster data processing and improved system responsiveness.

Efficient Task Execution

The 3.2GHz clock speed allows the CPU to handle tasks more efficiently, especially those that require quick processing. Whether you are running complex calculations, rendering graphics, or performing data-intensive operations, the high clock speed ensures that your tasks are executed swiftly and without delays.

Seamless Multitasking

With a clock speed of 3.2GHz, the Cisco UCS Xeon E5-2667V4 CPU enables seamless multitasking. You can effortlessly switch between multiple applications without experiencing lags or slowdowns. This is particularly beneficial for professionals who rely on resource-intensive software or for gamers who demand smooth gameplay even while running other programs in the background.

Optimized Gaming Experience

Gamers can take full advantage of the 3.2GHz clock speed to enhance their gaming experience. The higher clock speed ensures that game physics calculations, AI processing, and rendering are performed quickly and accurately. This results in smoother gameplay, reduced input lag, and an overall immersive gaming experience.

Real-Time Applications

For users who work with real-time applications such as audio/video editing or live streaming, the 3.2GHz clock speed plays a crucial role in maintaining uninterrupted performance. Real-time tasks require instantaneous processing to avoid latency issues, and the high clock speed of this CPU ensures that these tasks are executed without any noticeable delays.

Cores: 8

Enhanced Parallel Processing

The Cisco UCS Xeon E5-2667V4 CPU features 8 cores, which enable enhanced parallel processing capabilities. Each core can handle separate tasks simultaneously, allowing for improved multitasking and faster execution of multiple threads. This is particularly advantageous in scenarios where applications can be divided into parallelizable tasks, such as scientific simulations or video encoding.

Efficient Resource Allocation

With 8 cores, the CPU can efficiently allocate resources to different applications and processes. Each core can be dedicated to a specific task, ensuring that each application receives sufficient computing power and minimizing the chances of bottlenecking or slow performance. This translates to a more efficient utilization of system resources and improved overall system performance.

Boosted Productivity

The 8 cores in the Cisco UCS Xeon E5-2667V4 CPU contribute to increased productivity. Users can run multiple applications simultaneously without experiencing significant performance degradation. This is especially beneficial for professionals who require intensive multitasking capabilities, such as software developers, content creators, or data analysts.

Seamless Virtualization

Virtualization technology relies heavily on multiple cores to efficiently run virtual machines (VMs). The 8 cores in this CPU allow for seamless virtualization, enabling users to create and run several VMs simultaneously without compromising performance. This is particularly advantageous for organizations that heavily rely on virtualization for server consolidation, cost savings, and efficient resource management.

Gaming Performance

The 8 cores in the Cisco UCS Xeon E5-2667V4 CPU also have a significant impact on gaming performance. Many modern games are designed to take advantage of multiple cores, allowing for better utilization of system resources. With 8 cores, gamers can enjoy smoother gameplay, improved frame rates, and reduced stuttering, especially in games that demand high CPU performance.

Cache: 25MB L3

Accelerated Data Access

The Cisco UCS Xeon E5-2667V4 CPU boasts a generous 25MB L3 cache, which plays a critical role in accelerating data access and improving overall system performance. The cache acts as a high-speed memory that stores frequently accessed data, reducing the need to fetch information from slower main memory or storage devices.

Reduced Memory Latency

The large L3 cache minimizes memory latency by providing quick access to frequently used data. When applications require specific data, the CPU can retrieve it directly from the cache, bypassing the need to wait for the data to be fetched from the main memory. This results in faster data retrieval and improved overall system responsiveness.

Efficient Data Sharing

With a 25MB L3 cache, the CPU can store larger amounts of data closer to the processing cores. This enables efficient data sharing between different cores and reduces the need for frequent data transfers between cache levels or main memory. As a result, tasks that involve inter-core communication or sharing of intermediate results can be executed more efficiently.

Improved Instruction Execution

The L3 cache also facilitates improved instruction execution by storing frequently used program instructions. When an application requires specific instructions, the CPU can quickly access them from the cache, eliminating the need for repeated instruction fetches from slower memory. This leads to faster program execution and enhanced overall system performance.

Processor-intensive Workloads

The 25MB L3 cache is particularly beneficial for processor-intensive workloads that involve large datasets or complex calculations. Such workloads can benefit from the increased cache capacity as it allows for a higher hit rate, meaning a larger portion of data and instructions can be accessed directly from the cache. This leads to reduced memory bottlenecks and improved performance for tasks such as scientific simulations, data analysis, or 3D rendering.