Intel Xeon Gold 6142 16-Core SR3AY 2.6GHz 22MB L3 Cache 10.4GT/S UPI Speed Socket FCLGA3647 14NM 150W

Core Count: 16

The Intel Xeon Gold 6142 Processor is equipped with an impressive core count of 16. This means that it has 16 independent processing units, allowing it to handle multiple tasks simultaneously. For users who require high-performance computing, such as data analysis, scientific simulations, or heavy multitasking, a processor with a higher core count like the Intel Xeon Gold 6142 is essential.

Increased Performance

With 16 cores, the Intel Xeon Gold 6142 Processor can execute more tasks simultaneously than processors with fewer cores. This leads to improved performance and faster response times, allowing users to complete their work more efficiently. Whether you are running complex software applications, virtual machines, or performing demanding calculations, the increased core count ensures smooth and uninterrupted performance.

Enhanced Multitasking

A higher core count also enables better multitasking capabilities. With 16 cores at its disposal, the processor can handle multiple tasks simultaneously without experiencing significant slowdowns or delays. This is particularly advantageous for professionals who need to run resource-intensive applications or perform resource-heavy tasks simultaneously.

Improved Parallel Processing

The Intel Xeon Gold 6142 Processor's 16 cores are ideal for parallel processing tasks. Parallel processing involves dividing a task into smaller subtasks that can be processed simultaneously. With more cores, the processor can handle a larger number of subtasks concurrently, resulting in faster data processing and analysis. This makes the processor well-suited for tasks such as video rendering, scientific simulations, and big data analysis.

Optimized Server Performance

In server environments where multiple users are accessing and utilizing resources simultaneously, the Intel Xeon Gold 6142 Processor's 16 cores ensure smooth and efficient operation. The processor can handle multiple requests and tasks from different users without compromising performance or causing bottlenecks. This makes it an excellent choice for server applications that require high-performance computing, such as web hosting, virtualization, and cloud computing.

Base Clock Speed: 2.6GHz

The Intel Xeon Gold 6142 Processor boasts a base clock speed of 2.6GHz. The base clock speed is the frequency at which the processor operates under normal conditions without any turbo boost or overclocking. A higher base clock speed provides several benefits for users seeking fast and responsive computing experiences.

Snappy Responsiveness

With a base clock speed of 2.6GHz, the Intel Xeon Gold 6142 Processor delivers snappy responsiveness, ensuring quick execution of tasks and smooth system operation. This is especially important for applications that require real-time interactions, such as gaming, video editing, and audio production. The high base clock speed allows for seamless multitasking and reduces the time spent waiting for applications to load or respond.

Efficient Task Execution

A higher base clock speed enables the processor to execute tasks more quickly and efficiently. Each core in the Intel Xeon Gold 6142 Processor operates at the base clock speed, meaning that tasks assigned to different cores can be processed simultaneously at a high frequency. This results in improved overall system performance and reduced processing times.

Smooth Multimedia Experience

The Intel Xeon Gold 6142 Processor's high base clock speed ensures a smooth multimedia experience for users. Whether you are streaming high-definition videos, editing photos or videos, or playing graphics-intensive games, the processor's fast clock speed ensures that your media is processed seamlessly without lag or stuttering.

Optimized Single-Threaded Performance

While the Intel Xeon Gold 6142 Processor excels at multi-threaded tasks with its 16 cores, its high base clock speed also benefits single-threaded applications. Single-threaded applications rely on a single core for processing, and the high clock speed ensures that these applications run smoothly and quickly. This is particularly important for applications that are not heavily optimized for multi-threading, such as certain gaming titles or older software.

L3 Cache: 22MB

The Intel Xeon Gold 6142 Processor features a generous L3 cache size of 22MB. The L3 cache is a high-speed memory bank located on the processor that stores frequently accessed data, improving overall system performance and reducing memory latency.

Faster Data Access

With a larger L3 cache, the Intel Xeon Gold 6142 Processor can store more data closer to the processor cores, reducing the time it takes to access frequently used data. This results in faster data retrieval and processing, which is especially beneficial for applications that rely on repetitive or sequential data access, such as databases or file servers.

Improved Program Execution

The larger L3 cache of the Intel Xeon Gold 6142 Processor enhances program execution by providing quicker access to frequently used instructions and data. This reduces the time it takes for the processor to retrieve and execute instructions, resulting in faster program execution and improved overall system performance.

Enhanced Multi-Core Performance

A larger L3 cache also benefits multi-core performance. When multiple cores are accessing data simultaneously, the larger cache allows for better sharing of information between cores, reducing data transfer latency and improving overall efficiency. This leads to improved performance in multi-threaded applications and better utilization of the processor's 16 cores.

Efficient Virtualization

For virtualization environments, the Intel Xeon Gold 6142 Processor's 22MB L3 cache ensures efficient operation. Virtualization involves running multiple virtual machines simultaneously, and the larger cache helps reduce the overhead associated with memory access for virtual machines. This results in improved performance and responsiveness in virtualized environments.

Upi Speed: 10.4GT/S

The Intel Xeon Gold 6142 Processor boasts an impressive UPI (Ultra Path Interconnect) speed of 10.4GT/s. UPI is a high-speed interconnect technology that allows communication between different processors or processor sockets in a multi-socket system. The high UPI speed of the Intel Xeon Gold 6142 Processor delivers numerous benefits for users in terms of scalability, system performance, and data transfer rates.

Scalability and Flexibility

The high UPI speed enables the Intel Xeon Gold 6142 Processor to scale efficiently in multi-socket systems. In systems with multiple processors or processor sockets, the UPI speed determines the bandwidth available for inter-processor communication. A higher UPI speed allows for more efficient data transfer between processors, facilitating better system scalability and flexibility.

Improved System Performance

The high UPI speed of the Intel Xeon Gold 6142 Processor contributes to improved overall system performance. Faster inter-processor communication reduces latency and improves synchronization between cores, ensuring efficient utilization of processing power across multiple sockets. This is particularly beneficial for applications that require high-speed data sharing or parallel processing across multiple processors.

Enhanced Data Transfer Rates

The high UPI speed directly impacts data transfer rates between processors or processor sockets. With a UPI speed of 10.4GT/s, the processor can transfer large amounts of data quickly, improving overall system efficiency and reducing data transfer latency. This is advantageous for applications that involve large-scale data processing, such as scientific simulations, big data analytics, or database management.

Reliable Server Performance

In server environments where multiple processors or processor sockets are utilized, the high UPI speed ensures reliable and efficient server performance. The fast interconnect between sockets allows for smooth data transfer and communication between processors, minimizing bottlenecks and ensuring optimal server operation.

Socket Type: FCLGA3647

The Intel Xeon Gold 6142 Processor utilizes the FCLGA3647 socket type. The socket type refers to the physical interface between the processor and the motherboard, determining compatibility and connectivity options. The FCLGA3647 socket type offers several benefits in terms of performance, scalability, and future upgradeability.

High-Performance Computing

The FCLGA3647 socket type is designed to accommodate high-performance processors like the Intel Xeon Gold 6142. Its robust design and electrical connections ensure efficient power delivery and signal integrity, enabling the processor to operate at its full potential. This makes it an ideal choice for users who require uncompromised performance in demanding workloads or resource-intensive applications.

Scalability and Future-Proofing

The FCLGA3647 socket type offers excellent scalability, allowing for future upgrades to more powerful processors. This means that users can invest in the Intel Xeon Gold 6142 Processor now and easily upgrade to a higher-end processor in the future without needing to replace the entire motherboard. This provides a cost-effective solution for users who want to keep their systems up to date with the latest technology.

Support for Advanced Features

The FCLGA3647 socket type provides support for advanced features and technologies. It offers compatibility with high-speed memory modules, multiple PCI Express lanes for expansion cards, and other cutting-edge technologies. This ensures that users can take advantage of the latest hardware innovations and maximize the capabilities of their systems.

Reliable and Secure Connection

The FCLGA3647 socket type ensures a reliable and secure connection between the processor and the motherboard. Its robust physical design and secure locking mechanism prevent accidental disconnections or damage during operation. This ensures stable system performance and protects valuable data from potential interruptions caused by loose connections.

Manufacturing Technology: 14NM

The Intel Xeon Gold 6142 Processor is built using the advanced 14nm manufacturing technology. The manufacturing technology refers to the size of the transistors used to build the processor, with smaller transistors allowing for increased performance, efficiency, and power savings.

Increased Performance

The 14nm manufacturing technology enables the Intel Xeon Gold 6142 Processor to pack more transistors into a smaller space, resulting in increased performance. The smaller transistors allow for faster switching speeds, reduced power leakage, and improved overall efficiency. This means that the processor can execute instructions more quickly and handle complex tasks with greater ease.

Improved Energy Efficiency

The 14nm manufacturing technology brings significant energy efficiency improvements to the Intel Xeon Gold 6142 Processor. Smaller transistors require less power to switch on and off, resulting in reduced power consumption. This not only leads to lower electricity bills but also helps to minimize heat generation, reducing the need for extensive cooling solutions and enhancing system reliability.

Higher Density Integration

The 14nm manufacturing technology allows for higher transistor density, meaning that more transistors can be packed into the same physical space. This enables the Intel Xeon Gold 6142 Processor to integrate more features and functionality, such as larger caches, additional cores, and advanced instruction sets. The higher density integration provides users with access to advanced processing capabilities and improved system performance.

Future-Proofing and Compatibility

By utilizing the 14nm manufacturing technology, the Intel Xeon Gold 6142 Processor ensures compatibility with existing hardware and software while also providing a level of future-proofing. As technology progresses and more applications take advantage of the benefits offered by smaller transistors, the processor will remain relevant and capable of handling upcoming software advancements.

Power Consumption: 150W

The Intel Xeon Gold 6142 Processor has a power consumption of 150W. Power consumption refers to the amount of electrical power required to operate the processor under typical workload conditions. Understanding power consumption is essential for users concerned with energy efficiency, system cooling, and overall operating costs.

Energy Efficiency

The Intel Xeon Gold 6142 Processor is engineered to deliver high performance while maintaining energy efficiency. With a power consumption of 150W, it strikes a balance between power-hungry performance and energy-saving operation. The processor's architecture and advanced power management features ensure that power is utilized efficiently, reducing wasted energy and minimizing environmental impact.

Reduced Operating Costs

A processor with lower power consumption translates to reduced operating costs over time. By consuming less energy, the Intel Xeon Gold 6142 Processor can help businesses and individuals save on electricity bills. This is particularly beneficial for systems that require continuous operation or those deployed in large-scale server environments where power consumption can have a significant impact on operational expenses.

Effective Cooling Solutions

The 150W power consumption of the Intel Xeon Gold 6142 Processor provides guidance for selecting appropriate cooling solutions. By understanding the processor's power requirements, users can ensure that their cooling systems are capable of dissipating the generated heat effectively. This ensures stable operation, prevents overheating, and extends the lifespan of the processor and other system components.

Environmentally-Friendly Computing

For users concerned about their environmental footprint, the Intel Xeon Gold 6142 Processor's power consumption of 150W contributes to environmentally-friendly computing practices. By choosing a processor with lower power consumption, users can reduce their carbon footprint and contribute to energy conservation efforts. This is particularly important in data centers and server farms that consume substantial amounts of energy and have a significant impact on the environment.