UCS-CPU-8168 Cisco Xeon Platinum 2.7GHz Intel Xeon 24 Core 33mb L3 Cache CPU & Processors

Cisco Xeon Platinum 8168 Server Processor

General Product Information

The Cisco Xeon Platinum 8168 server processor upgrade delivers top-tier performance and is designed for high-intensity computing needs, such as machine learning, artificial intelligence, and real-time data analytics. With a tetracosa-core (24-core) architecture and advanced security features, this processor is ideal for multi-cloud and mission-critical workloads, offering both agility and scalability for modern data centers.

Key Specifications and Features

Manufacturer and Model Details

• Manufacturer: Cisco Systems, Inc.
• Part Number: UCS-CPU-8168
• Product Line: Xeon Platinum
• Product Series: 8000
• Model: 8168
• Product Type: Server Processor Upgrade

Processor Core and Speed

• Total Cores: Tetracosa-core (24 cores)
• Base Clock Speed: 2.7 GHz
• Max Turbo Frequency: 3.7 GHz

Cache and Memory

• L2 Cache: 24 MB
• L3 Cache: 33 MB
• Maximum Memory Supported: 768 GB
• Memory Types: DDR4-2600
• Maximum Memory Speed: 2666 MHz
• Memory Channels: 6
• ECC Memory Support: Yes

Multi-Cloud and Hybrid-Cloud Optimization

The Intel® Xeon® Platinum processor family is optimized for hybrid-cloud data centers, providing security, flexibility, and high processing capabilities essential for mission-critical applications. This 24-core processor is specifically designed to manage intensive multi-cloud environments, harnessing next-generation I/O, memory, and storage technologies to handle demanding workloads.

Advanced Security and Data Protection

• Intel® Security Features: Provides a robust foundation for trusted data processing across applications.
• Intel® Advanced Vector Extensions (AVX-512): Enhances the performance of complex computing tasks such as AI and machine learning.
• Secure Data Handling: Hardware-based security ensures data integrity and protection, delivering reliability for sensitive workloads.

UltraPath Interconnect (UPI) Technology

• UPI Speed: Supports high-speed data transfer between CPUs, improving responsiveness and data throughput.
• Number of UPI Links: 3, ensuring efficient data pathways for parallel processing needs.

Technical and Environmental Specifications

Technical Information

• Processor Architecture: 64-bit
• Supported Instruction Set Extensions: SSE4.2, AVX, AVX2, AVX-512
• Process Technology: 14 nm
• Socket Compatibility: FCLGA3647

Power and Thermal Specifications

• Thermal Design Power (TDP): 205 W
• Thermal Specification: Can withstand temperatures up to 85°C (185°F)

Environmental Conditions

This processor is built to maintain reliable performance under heavy workloads and high temperatures, making it ideal for data centers and server rooms that experience continuous operation.

Memory Compatibility and Scalability

• Maximum Memory Capacity: Supports up to 768 GB of DDR4 memory, suitable for memory-intensive applications.
• Memory Speed: Operates at speeds up to 2666 MHz, maximizing data processing efficiency.
• ECC Support: Error-correcting code memory compatibility enhances data integrity and reliability.

Clock Speed: 2.7GHz

The Cisco UCS-CPU-8168 CPU is equipped with a clock speed of 2.7GHz, which plays a crucial role in determining the overall performance and speed of the processor. Clock speed refers to the rate at which a processor can execute instructions per second. In simpler terms, it determines how fast the CPU can process data and perform tasks.

Improved Processing Power

A higher clock speed, such as the 2.7GHz offered by this Cisco UCS CPU, results in improved processing power. With each increase in clock speed, the CPU can execute more instructions within a given time frame. This means that tasks and computations can be completed at a faster rate, resulting in enhanced overall performance.

For users who engage in heavy computational tasks such as video editing, 3D rendering, or scientific simulations, a higher clock speed is essential. These tasks require swift processing power to handle complex calculations and generate results quickly. The 2.7GHz clock speed of this CPU ensures that such tasks are handled efficiently and completed in less time.

Smooth Multitasking

In addition to improving processing power, a higher clock speed also enables smoother multitasking. When you have multiple applications running simultaneously, each application requires its share of CPU resources. A higher clock speed allows the CPU to quickly switch between these applications, allocating resources as needed.

Whether you're running resource-intensive software like virtual machines or simply juggling several applications at once, the 2.7GHz clock speed ensures that your system can handle multitasking without significant slowdowns or performance issues.

Seamless Gaming Experience

Gamers can also benefit from the 2.7GHz clock speed provided by this Cisco UCS CPU. Many modern games require substantial processing power to render detailed graphics, simulate physics, and handle complex AI algorithms. With a higher clock speed, the CPU can keep up with the demanding requirements of these games, resulting in a smooth and immersive gaming experience.

Furthermore, the 2.7GHz clock speed ensures that the CPU can handle background processes while gaming without causing noticeable performance drops. This means you can stream gameplay, communicate with teammates, or run other applications in the background without impacting your gaming performance.

Efficient Software Compilation

For developers and programmers, compiling software can be a time-consuming process. Compiling large codebases often involves numerous calculations and optimizations that can take hours to complete. Here, the 2.7GHz clock speed proves beneficial by reducing compilation times.

With a higher clock speed, the CPU can quickly process the code and complete the compilation process in less time. This allows developers to iterate faster, make code changes, and test their software more frequently without wasting hours waiting for compilations to finish.

Processor Type: Intel Xeon

The Cisco UCS-CPU-8168 CPU is powered by an Intel Xeon processor, which is renowned for its exceptional performance and reliability. Intel Xeon processors are designed specifically for servers and workstations, making them ideal for demanding enterprise environments and resource-intensive tasks.

Enterprise-Grade Performance

The Intel Xeon processor delivers enterprise-grade performance that exceeds the capabilities of consumer-grade CPUs. These processors are built to handle heavy workloads and provide reliable performance even under sustained usage. This makes them perfect for businesses that rely on servers to run critical applications or handle large-scale databases.

The Cisco UCS-CPU-8168 CPU's Intel Xeon processor ensures that businesses can leverage the power of server-grade processing for their computing needs. From running complex simulations to managing virtualized environments, the Intel Xeon processor guarantees exceptional performance and stability.

Enhanced Security Features

Security is a top priority for any business or organization, and the Intel Xeon processor offers advanced security features designed to protect sensitive data. These processors incorporate hardware-level security technologies like Intel® Software Guard Extensions (Intel® SGX) and Intel® Trusted Execution Technology (Intel® TXT).

Intel SGX enables the creation of secure enclaves, which are isolated regions of memory that protect sensitive data from unauthorized access. This feature is particularly valuable for applications that deal with confidential information, such as financial transactions or medical records.

Intel TXT provides hardware-based authentication and integrity checks during system boot-up, ensuring that the system is running trusted software and hasn't been compromised by malware or other malicious activities.

Reliability and Longevity

Another important aspect of the Intel Xeon processor is its reliability and longevity. These processors are built using high-quality components and undergo rigorous testing to ensure they can withstand demanding workloads without failure.

For businesses, system downtime can result in significant financial losses and productivity setbacks. The use of an Intel Xeon processor in the Cisco UCS-CPU-8168 CPU minimizes the risk of unexpected failures, providing businesses with a reliable computing solution that can operate without interruption.

Number Of Cores: 24

The Cisco UCS-CPU-8168 CPU boasts an impressive number of cores, with a total of 24 processing cores. The number of cores in a CPU plays a vital role in determining its multitasking capabilities, overall performance, and ability to handle parallel workloads.

Efficient Multithreading

With 24 cores, the Cisco UCS-CPU-8168 CPU can execute multiple tasks simultaneously through a technique called multithreading. Multithreading allows the CPU to divide its workload across multiple cores, enabling efficient parallel processing.

For users who engage in tasks that can be split into smaller and independent subtasks, such as video editing or data analysis, the presence of 24 cores ensures that these tasks can be completed faster. Each core can work on a separate subtask concurrently, reducing overall processing time and increasing productivity.

Optimized Virtualization

The 24 cores in the Cisco UCS-CPU-8168 CPU also make it an excellent choice for virtualization environments. Virtualization allows multiple virtual machines (VMs) to run on a single physical server, effectively maximizing hardware utilization and reducing costs.

Each VM requires CPU resources to operate, and the presence of 24 cores ensures that there are sufficient resources available for running multiple VMs simultaneously without performance degradation. This allows businesses to consolidate their infrastructure, run more VMs on a single server, and achieve greater operational efficiency.

Improved Gaming Performance

Gaming enthusiasts can also benefit from the 24 cores offered by this Cisco UCS CPU. While most games primarily rely on single-threaded performance, some modern titles are optimized to take advantage of multiple cores.

With 24 cores, the CPU can allocate resources to handle game-related processes more efficiently. This results in improved gaming performance, particularly in games that make use of advanced physics simulations, complex AI algorithms, or multiplayer environments where additional cores can handle background tasks like voice chat or game streaming.

Cache Size: 33MB L3

The Cisco UCS-CPU-8168 CPU features a generous cache size of 33MB L3. The cache is a small, high-speed memory integrated into the CPU, which stores frequently accessed data and instructions. A larger cache size offers several benefits related to performance and efficiency.

Reduced Memory Latency

One of the primary advantages of a larger cache size is reduced memory latency. Memory latency refers to the time it takes for the CPU to fetch data from the main system memory. With a larger cache, more data can be stored closer to the CPU, reducing the need to access the slower main memory frequently.

The 33MB L3 cache in the Cisco UCS-CPU-8168 CPU allows for faster data retrieval, resulting in improved overall performance. This is particularly beneficial for tasks that involve frequent access to large datasets or applications that heavily rely on data processing.

Enhanced Instruction Execution

In addition to reducing memory latency, a larger cache size also improves instruction execution. The CPU can store frequently used instructions in the cache, allowing for quicker retrieval and execution. This results in faster application response times and improved system performance.

Tasks that involve repetitive computations or heavy reliance on specific instructions can benefit significantly from a larger cache size. Software applications such as video editing software, 3D rendering applications, or scientific simulations often exhibit improved performance with a larger cache.

Better Gaming Experience

Gamers can also experience smoother gameplay with the 33MB L3 cache provided by this Cisco UCS CPU. Games often require quick access to game assets, such as textures, models, or sound files. With a larger cache, these assets can be stored closer to the CPU, resulting in reduced loading times and improved game performance.

Furthermore, open-world games or games with large environments can benefit from a larger cache as it allows for quicker loading of new areas and seamless transitions between different game regions.