Intel Xeon Platinum 8160 24-Core Processor CD8067303405600

Cores

Enhanced Performance

The Intel Xeon Platinum 8160 Processor boasts an impressive 24 cores, making it a powerful solution for users in need of high-performance computing. With a higher number of cores, this processor can handle multiple tasks simultaneously, resulting in enhanced performance and improved productivity. Whether you are running complex simulations, analyzing large datasets, or performing intensive calculations, the abundance of cores ensures that your processes will run smoothly and efficiently.

Parallel Processing

The 24 cores of the Intel Xeon Platinum 8160 Processor enable efficient parallel processing, a key advantage for users dealing with heavily threaded workloads. Parallel processing allows for the simultaneous execution of multiple tasks, dividing the workload among the cores. This significantly reduces processing time and enables faster completion of tasks. Whether you are rendering complex graphics, running virtual machines, or conducting scientific simulations, the high number of cores ensures that your work is completed in a timely manner.

Scalability and Future-Proofing

Having 24 cores in the Intel Xeon Platinum 8160 Processor provides scalability and future-proofing for your computing needs. As software becomes more optimized for multi-core architectures, having a higher core count ensures compatibility with future applications and technologies. By investing in a processor with ample cores now, you can ensure that your system will remain capable and efficient as software demands increase over time. This scalability future-proofs your investment and saves you from having to upgrade your hardware prematurely.

Virtualization Efficiency

For users involved in virtualization tasks, the 24 cores of the Intel Xeon Platinum 8160 Processor offer significant advantages. Virtualization relies heavily on core count to efficiently run multiple virtual machines simultaneously. With more cores at your disposal, you can allocate resources to each virtual machine without sacrificing performance. This allows for smoother operations and improved resource management, resulting in a more efficient virtualized environment.

Complex Data Analysis

The abundance of cores in the Intel Xeon Platinum 8160 Processor is particularly beneficial for users engaged in complex data analysis tasks. With the ability to process multiple data sets concurrently, the processor enables faster analysis and reduces the time required to derive insights from large datasets. Whether you are performing statistical analysis, machine learning, or big data processing, the 24 cores ensure that your data analysis tasks are completed efficiently and effectively.

Multi-Threaded Applications

Multi-threaded applications can take full advantage of the 24 cores offered by the Intel Xeon Platinum 8160 Processor. Such applications divide their workload into multiple threads, with each thread running on a separate core. The higher core count ensures that each thread receives dedicated processing power, allowing for optimal performance even with demanding multi-threaded applications. Whether you are running video editing software, 3D rendering applications, or engineering simulations, the processor's cores deliver the necessary performance to handle these tasks with ease.

Improved Responsiveness

The 24 cores of the Intel Xeon Platinum 8160 Processor contribute to improved system responsiveness. With more cores available to handle background processes and system tasks, the processor can allocate resources efficiently, ensuring that foreground applications receive the necessary processing power for smooth and responsive operation. This results in a snappy user experience, whether you are navigating through complex software interfaces or multitasking between various applications.

Base Clock Speed

Efficient Single-Thread Performance

The Intel Xeon Platinum 8160 Processor features a base clock speed of 2.1GHz, providing efficient single-thread performance. Single-threaded tasks rely on the frequency of a single core to execute instructions. The higher the base clock speed, the faster a single core can process instructions, resulting in improved performance for tasks that cannot be parallelized. Whether you are running legacy applications, web browsing, or performing single-threaded operations, the processor's base clock speed ensures optimal performance.

Optimized Workloads

The 2.1GHz base clock speed of the Intel Xeon Platinum 8160 Processor is optimized for a wide range of workloads. It strikes a balance between power consumption and performance, ensuring that tasks are completed efficiently without excessive energy usage. This makes it suitable for various applications, including general-purpose computing, database management, and content creation. The optimized base clock speed guarantees that your system operates smoothly across different workloads without compromising on performance.

Boost Frequency

In addition to the base clock speed, the Intel Xeon Platinum 8160 Processor also features a boost frequency, which dynamically increases the clock speed when additional performance is required. The boost frequency allows the processor to adapt to workload demands and provide extra processing power when needed. This ensures that your system performs optimally during peak usage scenarios, such as running resource-intensive applications or handling sudden spikes in computational requirements.

Real-Time Applications

Real-time applications, which require immediate response and low latency, benefit from the base clock speed of the Intel Xeon Platinum 8160 Processor. Tasks such as audio and video processing, gaming, and live streaming rely on fast processing to maintain smooth and uninterrupted performance. The processor's efficient single-thread performance ensures that these real-time applications can run seamlessly, delivering a high-quality user experience without any noticeable delays or lag.

Single-Threaded Workloads

For users dealing with single-threaded workloads, the 2.1GHz base clock speed of the Intel Xeon Platinum 8160 Processor guarantees efficient execution of tasks. Single-threaded applications, such as certain productivity software or legacy programs, can fully utilize the processor's base clock speed to deliver optimal performance. This ensures that even tasks that cannot be parallelized are executed swiftly and smoothly, enhancing productivity and minimizing wait times.

Responsive User Interface

The combination of the base clock speed and boost frequency in the Intel Xeon Platinum 8160 Processor contributes to a responsive user interface. The processor's fast clock speed allows for quick execution of user interface tasks, such as opening applications, switching between windows, or interacting with graphical elements. This results in a snappy and fluid user experience, enhancing productivity and reducing frustration caused by laggy interfaces.

Efficient Energy Usage

The Intel Xeon Platinum 8160 Processor's base clock speed of 2.1GHz strikes a balance between performance and power consumption. By optimizing the clock speed, the processor ensures that tasks are completed efficiently without unnecessarily draining power. This energy efficiency is particularly important for users concerned with reducing their carbon footprint or operating systems in environments where power consumption is a critical factor.

L3 Cache

Faster Data Access

The Intel Xeon Platinum 8160 Processor is equipped with a generous 33MB L3 cache, providing faster data access for improved performance. The L3 cache acts as a high-speed memory buffer between the processor cores and the main system memory. By storing frequently accessed data closer to the cores, the processor can retrieve information more quickly, reducing latency and improving overall system responsiveness. Whether you are loading large datasets or accessing commonly used files, the ample L3 cache ensures that data retrieval is expedited.

Reduced Memory Latency

The presence of a large L3 cache in the Intel Xeon Platinum 8160 Processor significantly reduces memory latency. Latency refers to the time it takes for the processor to access data from the main memory. With a larger L3 cache, more data can be stored near the cores, reducing the need to fetch information from the comparatively slower main memory. This results in faster data retrieval and improved performance, particularly for memory-intensive tasks such as database queries or multimedia processing.

Improved Multithreaded Performance

The 33MB L3 cache in the Intel Xeon Platinum 8160 Processor enhances multithreaded performance. When multiple threads are running concurrently, they often share data and communicate with each other. The larger L3 cache allows for efficient sharing of data among threads, reducing the need for constant data transfers between cores. This improves overall performance by minimizing synchronization delays and enabling threads to access shared data quickly, resulting in smoother execution of multithreaded applications and increased productivity.

Large Dataset Processing

Users dealing with large datasets can benefit greatly from the generous L3 cache of the Intel Xeon Platinum 8160 Processor. When working with extensive amounts of data, accessing information from the main memory can be time-consuming and inefficient. The large L3 cache serves as a temporary storage area for frequently accessed data, allowing for faster retrieval and processing. This accelerates tasks such as data analysis, scientific simulations, or rendering large graphics, enabling users to work more efficiently.

Virtual Machine Performance

Virtualization relies on efficient data sharing between virtual machines and the host system. The 33MB L3 cache of the Intel Xeon Platinum 8160 Processor plays a crucial role in enhancing virtual machine performance. By storing frequently accessed data within the L3 cache, the processor reduces latency and improves communication between virtual machines and their corresponding cores. This results in faster response times and better overall performance when running multiple virtual machines simultaneously.

Reduced Disk I/O

The ample L3 cache in the Intel Xeon Platinum 8160 Processor helps reduce disk input/output (I/O) operations. By storing frequently accessed data within the cache, the processor minimizes the need to fetch information from slower storage devices such as hard drives or solid-state drives. This decreases disk I/O and reduces the time required for data retrieval, resulting in faster application startup times, quicker file access, and improved overall system performance.

Seamless Context Switching

Context switching, the process of changing between different tasks or applications, can be resource-intensive. The 33MB L3 cache in the Intel Xeon Platinum 8160 Processor facilitates seamless context switching by storing relevant data for each task within the cache. This reduces the time required to switch between different contexts, resulting in faster task switching and improved multitasking capabilities. Whether you are juggling multiple applications or rapidly switching between different workloads, the ample L3 cache ensures smooth transitions and uninterrupted productivity.

Upi Speed

High-Speed Interconnectivity

The Intel Xeon Platinum 8160 Processor features an impressive Upi speed of 10.4GT/s (GigaTransfers per second), providing high-speed interconnectivity between multiple processors or sockets. The Upi (Ultra Path Interconnect) is responsible for facilitating communication between processors within a system, enabling efficient data transfer and synchronization. With a high Upi speed, the processor ensures that information is transmitted quickly and accurately, allowing for seamless collaboration among multiple processors and improved system performance.

Scalability and Expansion

The 10.4GT/s Upi speed of the Intel Xeon Platinum 8160 Processor offers scalability and expansion options for users requiring additional processing power. High Upi speeds enable users to connect multiple processors together, creating a powerful multi-processor system capable of handling demanding workloads. This scalability allows for future upgrades or system expansions without the need for a complete hardware overhaul. With the Intel Xeon Platinum 8160 Processor, you have the flexibility to grow your system's capabilities as your computing needs evolve.

Improved System Responsiveness

The high Upi speed of 10.4GT/s in the Intel Xeon Platinum 8160 Processor contributes to improved system responsiveness. Faster interconnectivity between processors reduces latency and enables efficient communication, ensuring that tasks are executed without unnecessary delays. Whether you are running distributed computing applications, parallelized workloads, or complex simulations, the high Upi speed ensures that your system operates smoothly and responsively, enhancing productivity and user experience.

Enhanced Data Sharing

The 10.4GT/s Upi speed of the Intel Xeon Platinum 8160 Processor enhances data sharing and collaboration among multiple processors. In applications that require data synchronization or sharing between processors, a high Upi speed ensures that information is transmitted quickly and accurately. This is particularly beneficial for tasks such as distributed databases, real-time analytics, or scientific simulations that rely on efficient data exchange. The processor's Upi speed guarantees seamless collaboration and improved overall performance in such scenarios.

Distributed Computing

For users engaged in distributed computing tasks, the high Upi speed of the Intel Xeon Platinum 8160 Processor is advantageous. Distributed computing involves dividing a workload among multiple processors or nodes for increased processing power. The high Upi speed ensures that data is transmitted swiftly between processors, minimizing synchronization delays and optimizing overall performance. Whether you are running distributed database systems, high-performance computing clusters, or distributed AI training, the processor's Upi speed plays a crucial role in achieving efficient and effective distributed computing.

Multicore System Efficiency

The high Upi speed of the Intel Xeon Platinum 8160 Processor enhances the efficiency of multicore systems. In a multicore setup, interconnectivity between processors is vital for efficient task distribution and workload balancing. The high Upi speed facilitates seamless data exchange between cores, enabling optimal load distribution and maximizing processing power across all cores. This results in improved system efficiency, reduced bottlenecks, and enhanced overall performance, ensuring that each core functions at its full potential.

Large-Scale Data Processing

Users dealing with large-scale data processing can benefit greatly from the high Upi speed of the Intel Xeon Platinum 8160 Processor. Tasks such as big data analytics, real-time data processing, or distributed storage systems require efficient interconnectivity between processors to handle vast amounts of data. The high Upi speed ensures that data is transmitted quickly and accurately, enabling smooth processing and minimizing delays. This guarantees that large-scale data processing tasks are completed efficiently and within optimal timeframes.

Socket Type

Compatibility and Flexibility

The Intel Xeon Platinum 8160 Processor features the FCLGA3647 socket type, providing compatibility and flexibility for users in need of a powerful processor. The FCLGA3647 socket is designed to accommodate high-performance server processors and offers a reliable platform for server-grade applications. By opting for a processor with the FCLGA3647 socket type, you ensure compatibility with a wide range of server motherboards and expandability options, allowing you to tailor your system to your specific needs.

Server-Grade Performance

The FCLGA3647 socket type in the Intel Xeon Platinum 8160 Processor guarantees server-grade performance. Designed specifically for server applications, this socket type provides the necessary infrastructure for robust computing environments. Whether you are running databases, hosting virtual machines, or managing enterprise-level workloads, the FCLGA3647 socket ensures that your system is equipped to handle demanding server tasks reliably and efficiently.

Scalability and Upgradability

The FCLGA3647 socket type of the Intel Xeon Platinum 8160 Processor offers scalability and upgradability options. Servers often require the ability to accommodate future upgrades and expansions without replacing the entire system. The FCLGA3647 socket allows for easy replacement and installation of compatible processors, ensuring that your system can grow alongside your business needs. This scalability and upgradability save you from costly hardware replacements and provide a cost-effective solution for long-term server deployments.

Server Virtualization

For users involved in server virtualization, the FCLGA3647 socket type is particularly advantageous. Server virtualization relies on the ability to run multiple virtual machines simultaneously, each requiring dedicated processing power. The FCLGA3647 socket provides support for high-performance processors, enabling efficient resource allocation and optimal performance for virtualized workloads. Whether you are running cloud computing environments, virtual desktop infrastructure, or software-defined storage, the FCLGA3647 socket ensures that your server virtualization setup operates flawlessly.

Enterprise-Level Workloads

The FCLGA3647 socket type in the Intel Xeon Platinum 8160 Processor is ideal for users dealing with enterprise-level workloads. Enterprise applications often require powerful server-grade processors to handle demanding tasks such as large-scale databases, high-performance computing, or data analytics. The FCLGA3647 socket ensures that your system is equipped to handle these workloads efficiently, providing the necessary performance, reliability, and compatibility required by enterprise environments.

Reliable Server Infrastructure

The Intel Xeon Platinum 8160 Processor's FCLGA3647 socket type guarantees a reliable server infrastructure. Servers play a crucial role in businesses, hosting mission-critical applications and data. The FCLGA3647 socket type is designed to provide a robust and stable platform for server-grade processors, ensuring uninterrupted operation and minimizing the risk of system failures. By opting