HP 878142-B21 Xeon Gold 6146 12 Core 3.2GHz Processor 24.75MB L3 Cache

Core Count: 12

The HP Intel Xeon Gold 6146 Processor is equipped with an impressive 12 cores, making it a powerful and efficient option for users in need of high-performance computing. The core count refers to the number of independent processing units within the processor, and a higher core count translates to improved multitasking capabilities and faster overall performance.

Enhanced Multitasking

The 12-core configuration of the Intel Xeon Gold 6146 Processor allows for seamless multitasking, enabling users to run multiple resource-intensive applications simultaneously without experiencing any significant slowdown in performance. This is particularly beneficial for professionals who rely on their computers to handle demanding tasks such as video editing, 3D rendering, or data analysis.

Improved Productivity

With a higher core count, users can expect improved productivity as they can complete tasks more efficiently and in less time. Whether it's compiling code, running virtual machines, or performing complex calculations, the Intel Xeon Gold 6146 Processor's 12 cores ensure that operations are executed smoothly and without unnecessary delays.

Optimized Server Performance

For server applications, the 12 cores of the Intel Xeon Gold 6146 Processor enable efficient handling of multiple requests simultaneously. This capability allows servers to support a larger number of users and process more data concurrently, resulting in faster response times and enhanced overall performance.

Base Clock Speed: 3.2GHz

The base clock speed of a processor represents the frequency at which it operates under normal conditions. In the case of the HP Intel Xeon Gold 6146 Processor, the base clock speed is set at an impressive 3.2GHz. This high base clock speed provides several benefits for users seeking optimal performance.

Fast and Responsive Operations

A higher base clock speed means that the processor can execute instructions and perform calculations at a faster rate. This results in quicker response times when opening applications, launching software, or performing tasks that require real-time processing. The 3.2GHz base clock speed of the Intel Xeon Gold 6146 Processor ensures smooth and responsive operations, enhancing the overall user experience.

Seamless Multithreading

The high base clock speed of the Intel Xeon Gold 6146 Processor also facilitates efficient multithreading. Multithreading allows a single core to execute multiple threads simultaneously, effectively increasing the overall processing power of the CPU. With a base clock speed of 3.2GHz, this processor can handle multiple threads efficiently, resulting in improved multitasking capabilities.

Boosting Overclocking Potential

For users interested in pushing their system's performance even further, the high base clock speed of 3.2GHz provides a solid foundation for overclocking. Overclocking involves increasing the clock speed of a processor beyond its default specifications to achieve higher performance levels. With a high base clock speed, users have more headroom to experiment with overclocking, potentially unlocking even greater processing power.

L3 Cache: 24.75MB

The HP Intel Xeon Gold 6146 Processor features an abundant L3 cache size of 24.75MB, which plays a crucial role in improving overall system responsiveness and reducing data access latency.

Accelerated Data Retrieval

The L3 cache acts as a buffer between the processor and the main memory, storing frequently accessed data closer to the CPU for faster retrieval. With a larger cache size like the 24.75MB in the Intel Xeon Gold 6146 Processor, more data can be stored in the cache, resulting in reduced memory access times and accelerated data retrieval. This translates to snappier application loading times and improved performance across various tasks.

Smoothing Out Performance Bottlenecks

When a processor needs to fetch data from the main memory, there is typically a delay due to the speed disparity between the CPU and RAM. The larger L3 cache size of the Intel Xeon Gold 6146 Processor helps mitigate this delay by holding frequently accessed data closer to the processor, reducing the need for frequent trips to the main memory. This results in a smoother and more consistent performance, especially when dealing with large datasets or memory-intensive applications.

Enhanced Virtualization Performance

The generous L3 cache size of the Intel Xeon Gold 6146 Processor is particularly advantageous for virtualization workloads. Virtual machines often require frequent access to shared resources and data, and a larger cache size allows for faster retrieval of commonly used data across multiple virtual instances. This leads to improved virtual machine performance and better overall efficiency in virtualized environments.

Upi Speed: 10.4GT/S

The Upi (Ultra Path Interconnect) speed refers to the rate at which data can be transferred between different processors or sockets in a multi-socket system. The HP Intel Xeon Gold 6146 Processor boasts an impressive Upi speed of 10.4GT/s, offering significant benefits in terms of system scalability and communication efficiency.

Seamless Scalability

In multi-socket systems where multiple processors are connected, a high Upi speed is crucial for ensuring efficient communication between the processors. The 10.4GT/s Upi speed of the Intel Xeon Gold 6146 Processor facilitates seamless scalability, allowing for the addition of more processors without sacrificing performance. This scalability is particularly valuable for high-performance computing, data centers, and enterprise-level applications that demand extensive processing power.

Improved Data Sharing and Collaboration

A high Upi speed also enables faster data sharing and collaboration between different processors or sockets. In scenarios where multiple processors need to work together on a single task or share large datasets, a fast Upi speed ensures that data can be exchanged quickly and efficiently. This enhances productivity and enables smoother coordination in applications such as scientific simulations, distributed computing, and database management.

Efficient Resource Utilization

The efficient communication facilitated by the high Upi speed of the Intel Xeon Gold 6146 Processor ensures that resources are effectively utilized across multiple processors. Tasks can be distributed evenly among the processors, maximizing overall system performance and minimizing idle time. This efficient resource utilization is vital for optimizing computational workloads and achieving higher levels of productivity.

Socket Type: FCLGA3647

The socket type refers to the physical interface used to connect the processor to the motherboard. The HP Intel Xeon Gold 6146 Processor utilizes the FCLGA3647 socket type, which offers several advantages in terms of compatibility, performance, and future upgradability.

Wide Compatibility

The FCLGA3647 socket type is widely supported by various server-grade motherboards and platforms. This ensures compatibility with a diverse range of systems, making the Intel Xeon Gold 6146 Processor a versatile option for users looking to upgrade their existing infrastructure or build new systems. The broad industry support for this socket type also means that users have a wider selection of compatible components and accessories to choose from.

Enhanced System Performance

The FCLGA3647 socket type is specifically designed to accommodate high-performance processors like the Intel Xeon Gold 6146. This socket type provides robust electrical connections and optimized power delivery, ensuring stable and efficient performance. By utilizing the FCLGA3647 socket, users can maximize the capabilities of the processor and experience enhanced system performance across various workloads.

Future Upgradability

Investing in a processor with the FCLGA3647 socket type allows for future upgradability and scalability. As newer and more advanced processors become available, users can simply replace the existing processor with a compatible upgrade, without the need to change the entire motherboard or system. This ensures that the system remains up to date and capable of handling evolving technological demands.

Manufacturing Technology: 14NM

The manufacturing technology refers to the size of the transistors used in the processor's fabrication process. The HP Intel Xeon Gold 6146 Processor is built using a highly advanced 14nm manufacturing technology, which offers significant benefits in terms of power efficiency, thermal management, and overall performance.

Improved Power Efficiency

A smaller transistor size allows for more transistors to be packed onto a single chip, resulting in increased computing power while consuming less energy. The 14nm manufacturing technology used in the Intel Xeon Gold 6146 Processor ensures excellent power efficiency, enabling users to achieve high-performance computing without excessive power consumption. This is particularly valuable for businesses and data centers where reducing energy costs and environmental impact is a priority.

Effective Thermal Management

The smaller transistor size of 14nm also contributes to improved thermal management. With more transistors packed into a smaller space, heat generated during operation is spread out over a larger surface area, dissipating more efficiently. This helps to maintain lower operating temperatures and prevents overheating, ensuring the longevity and reliability of the processor even under heavy workloads or in thermally constrained environments.

Optimized Performance

The 14nm manufacturing technology employed in the Intel Xeon Gold 6146 Processor allows for higher clock speeds and improved performance. The smaller transistor size enables faster switching speeds, reducing the time required for data processing and enhancing overall system responsiveness. Whether it's running complex calculations, handling large datasets, or executing demanding applications, the 14nm manufacturing technology ensures that the processor delivers exceptional performance across a wide range of tasks.

Power Consumption: 165W

Power consumption is an essential consideration when choosing a processor, as it impacts both energy efficiency and thermal management. The HP Intel Xeon Gold 6146 Processor has a power consumption of 165W, striking a balance between high-performance computing and reasonable power usage.

Energy Efficiency

The 165W power consumption of the Intel Xeon Gold 6146 Processor ensures optimal energy efficiency without compromising performance. By efficiently utilizing power resources, this processor minimizes energy wastage and reduces operational costs. This makes it an ideal choice for users who require powerful computing capabilities while maintaining a sustainable approach to energy consumption.

Reduced Heat Generation

Power consumption directly affects heat generation within a system, and excessive heat can negatively impact performance and overall system stability. The 165W power consumption of the Intel Xeon Gold 6146 Processor strikes a balance between performance and heat generation, ensuring that the processor operates within safe temperature limits. This is particularly important in environments where heat dissipation is challenging or when operating multiple processors in close proximity.

Flexible Deployment Options

With a power consumption of 165W, the Intel Xeon Gold 6146 Processor can be deployed in a variety of systems and configurations. From single-socket workstations to multi-processor server setups, this processor offers versatility in terms of power requirements. Users can choose the system configuration that best aligns with their computing needs and power constraints, without sacrificing performance.