HPE 16-Core Xeon Gold 6142M Processor Kit 872117-B21

Core Count: 16

Benefits of 16 Core Count

The HPE Gold 6142M Processor Kit is equipped with an impressive core count of 16, making it an excellent choice for users who require high-performance computing capabilities. The increased number of cores allows for parallel processing, enabling the processor to handle multiple tasks simultaneously. This results in improved efficiency and faster processing speeds, which is particularly beneficial for resource-intensive applications such as data analytics, virtualization, and scientific simulations.

Enhanced Multitasking

The 16-core architecture of the HPE Gold 6142M Processor Kit enables users to run multiple applications and processes simultaneously without experiencing significant performance degradation. With each core capable of executing its own set of instructions independently, users can effortlessly multitask, switching between applications seamlessly. This feature is especially advantageous for professionals working in fields that require running multiple resource-intensive software simultaneously, such as video editing, 3D rendering, and engineering simulations.

Improved Performance for Parallel Workloads

Parallel workloads, which involve dividing a task into smaller sub-tasks that can be executed simultaneously, greatly benefit from a higher core count. The 16 cores of the HPE Gold 6142M Processor Kit allow for efficient execution of parallel workloads, leading to significantly improved performance and reduced processing times. This makes it an ideal choice for industries that heavily rely on parallel processing, such as scientific research, financial modeling, and artificial intelligence.

Scalability and Future-Proofing

Investing in a processor with a high core count, like the HPE Gold 6142M Processor Kit, ensures scalability and future-proofing for users. As software and applications become more demanding and capable of utilizing multiple cores effectively, having a higher core count allows users to keep up with evolving technology and maintain optimal performance. By choosing a processor with 16 cores, users can future-proof their systems and ensure they remain capable of handling the demands of tomorrow's software without the need for immediate upgrades.

Efficient Virtualization

Virtualization, which involves running multiple operating systems or applications on a single physical server, requires a processor with ample cores to allocate resources effectively. The 16-core count of the HPE Gold 6142M Processor Kit enables efficient virtualization, allowing users to create and manage multiple virtual machines without compromising performance. This is particularly valuable for businesses or individuals involved in server consolidation, cloud computing, or running virtualized desktop environments.

Base Clock Speed: 2.6GHz

Benefits of 2.6GHz Base Clock Speed

The HPE Gold 6142M Processor Kit boasts a base clock speed of 2.6GHz, which plays a critical role in determining the overall performance and responsiveness of the processor. The base clock speed represents the frequency at which the processor operates under normal conditions without any turbo boost or overclocking enabled.

Faster Single-Threaded Performance

A higher base clock speed, such as the 2.6GHz offered by the HPE Gold 6142M Processor Kit, results in faster single-threaded performance. This is particularly important for applications that rely heavily on a single core or thread, as they can execute instructions more rapidly. Tasks such as web browsing, word processing, and everyday computing benefit from this increased speed and responsiveness, allowing users to complete their work more efficiently.

Smooth User Experience

The 2.6GHz base clock speed ensures a smooth user experience by providing snappy and responsive performance, even during demanding tasks. Whether you're editing videos, playing games, or working with complex software, a higher base clock speed minimizes lag and delays, allowing for seamless interactions with your computer. This is especially valuable for professionals who rely on their systems for intensive tasks and need a processor that can keep up with their workload.

Quick Application Launches

The HPE Gold 6142M Processor Kit's 2.6GHz base clock speed enables rapid application launches by reducing the time it takes for programs to load. Whether you're opening a resource-intensive application or a simple utility, the faster base clock speed ensures that your applications are up and running in no time. This swift responsiveness improves productivity and efficiency, enabling users to access their tools and start working without unnecessary waiting periods.

Efficient Multithreaded Performance

While base clock speed primarily affects single-threaded performance, it also plays a role in determining the efficiency of multithreaded applications. The 2.6GHz base clock speed of the HPE Gold 6142M Processor Kit ensures that each core has an adequate starting point for executing instructions in parallel. This results in improved multithreaded performance and allows users to take full advantage of the processor's capabilities when running applications that can utilize multiple cores simultaneously.

Importance of Base Clock Speed Optimization

Optimizing the base clock speed is crucial for achieving the best possible performance from your processor. By fine-tuning the base clock speed settings or utilizing automatic turbo boost features provided by the processor, users can maximize their system's responsiveness and efficiency. It is important to note that while higher base clock speeds generally translate to better performance, other factors such as cache size, core count, and memory bandwidth should also be considered when selecting a processor to ensure optimal system performance.

L3 Cache: 22MB

Benefits of 22MB L3 Cache

The HPE Gold 6142M Processor Kit is equipped with a generous L3 cache size of 22MB. The L3 cache is a type of high-speed memory that sits between the processor cores and the main system memory (RAM). It plays a crucial role in improving the overall performance and efficiency of the processor.

Faster Data Access

The large 22MB L3 cache enables faster data access for the processor, reducing the time it takes to retrieve frequently used data. By storing data closer to the cores, the processor can access it more quickly, resulting in improved performance. This is especially beneficial for applications that rely heavily on data-intensive operations, such as database management, content creation, and scientific simulations.

Reduced Memory Latency

The presence of a substantial L3 cache, such as the 22MB offered by the HPE Gold 6142M Processor Kit, helps reduce memory latency. Latency refers to the time it takes for the processor to retrieve data from the main memory. With a larger cache, more data can be stored closer to the cores, reducing the need for frequent memory access. This results in lower latency and faster overall system performance.

Improved Instruction Throughput

The 22MB L3 cache enhances instruction throughput by allowing the processor to store frequently accessed instructions. This enables quicker retrieval and execution of instructions, resulting in improved overall processing speed. Applications that involve repetitive tasks or heavy instruction processing, such as video encoding, scientific modeling, and gaming, benefit greatly from an ample L3 cache size.

Efficient Multicore Scaling

The HPE Gold 6142M Processor Kit's 22MB L3 cache facilitates efficient multicore scaling. As the number of processor cores increases, efficient data sharing becomes vital for optimal performance. The large L3 cache helps mitigate potential bottlenecks by enabling fast communication and data sharing between the cores. This ensures that each core has access to the necessary data, minimizing idle time and maximizing overall system efficiency.

Importance of L3 Cache Size

When selecting a processor, considering the L3 cache size is crucial as it significantly impacts overall performance. While a larger L3 cache generally improves performance, it is important to strike a balance with other factors such as core count, clock speed, and power consumption to ensure optimal system performance for your specific use case. The 22MB L3 cache offered by the HPE Gold 6142M Processor Kit strikes this balance, making it an excellent choice for users who require both processing power and efficient data access.

Upi Speed: 10.4GT/s

Benefits of 10.4GT/s Upi Speed

The HPE Gold 6142M Processor Kit features an impressive UPI (Ultra Path Interconnect) speed of 10.4GT/s. UPI is a high-speed interconnect technology that facilitates communication between processors in multi-socket systems. The UPI speed directly influences the efficiency and performance of inter-processor communication.

Enhanced Scalability

A higher UPI speed, such as the 10.4GT/s offered by the HPE Gold 6142M Processor Kit, allows for enhanced scalability in multi-socket systems. By providing faster inter-processor communication, the UPI speed enables seamless coordination and synchronization between processors. This is particularly important for server environments that require multiple processors working in unison to handle heavy workloads or support large-scale virtualization.

Reduced Latency

The 10.4GT/s UPI speed helps reduce latency in inter-processor communication. Lower latency means that data can be transferred between processors more quickly and efficiently, resulting in improved system responsiveness. Applications that heavily rely on inter-processor communication, such as distributed computing, parallel processing, and high-performance computing, benefit greatly from a high UPI speed.

Increased Bandwidth

The UPI speed directly affects the bandwidth available for inter-processor communication. With a higher UPI speed, more data can be transferred between processors in a given amount of time. This increased bandwidth allows for faster data sharing and synchronization between processors, leading to improved overall system performance. Industries that require real-time data processing and analysis, such as financial trading or scientific research, greatly benefit from the increased bandwidth provided by a high UPI speed.

Optimized Workload Distribution

A higher UPI speed facilitates efficient workload distribution across multiple processors. With faster inter-processor communication, tasks can be distributed evenly among the processors, ensuring optimal utilization of resources and preventing bottlenecks. This is particularly important for applications that involve parallel processing or load balancing, such as virtualization and cloud computing environments.

Importance of UPI Speed in Multi-Socket Systems

The UPI speed plays a vital role in determining the overall performance and efficiency of multi-socket systems. When selecting a processor for such systems, it is important to consider the UPI speed to ensure efficient inter-processor communication and seamless coordination between processors. The 10.4GT/s UPI speed offered by the HPE Gold 6142M Processor Kit provides users with the necessary performance and scalability for demanding applications and multi-processor environments.

Socket Type: FCLGA3647

Benefits of FCLGA3647 Socket Type

The HPE Gold 6142M Processor Kit features the FCLGA3647 socket type, which is specifically designed for high-performance processors. The socket type determines the physical interface between the processor and the motherboard, ensuring compatibility and allowing for efficient data transfer.

Support for High-Performance Processors

The FCLGA3647 socket type is designed to accommodate high-performance processors that require robust power delivery and cooling solutions. It provides a large number of pins and an efficient electrical interface, ensuring optimal performance and stability for power-hungry processors. The HPE Gold 6142M Processor Kit, with its FCLGA3647 socket type, is an ideal choice for users who require exceptional processing power and reliability.

Scalability and Future Upgradability

The FCLGA3647 socket type allows for scalability and future upgradability. It supports a wide range of processors, enabling users to upgrade their systems with more powerful options in the future without changing the motherboard. This ensures longevity and flexibility, allowing users to adapt their systems to meet evolving requirements without undergoing a complete system overhaul.

Robust Power Delivery

The FCLGA3647 socket type is designed to provide robust power delivery capabilities, ensuring that high-performance processors receive a stable and consistent power supply. This is crucial for maintaining system stability under heavy workloads or during overclocking. The HPE Gold 6142M Processor Kit's FCLGA3647 socket type ensures reliable power delivery, minimizing the risk of system instability or crashes during demanding tasks.

Efficient Heat Dissipation

The FCLGA3647 socket type incorporates efficient heat dissipation mechanisms, allowing for effective cooling of high-performance processors. The large socket size and design enable the use of advanced cooling solutions such as high-performance heatsinks and liquid cooling systems. This helps maintain optimal operating temperatures for the processor, ensuring longevity and preventing thermal throttling that can impact performance.

Importance of Socket Type Compatibility

Choosing a processor with a compatible socket type is crucial for ensuring system compatibility and optimal performance. The FCLGA3647 socket type offered by the HPE Gold 6142M Processor Kit provides users with a reliable and future-proof option for their high-performance computing needs. It allows for seamless integration into existing systems or facilitates future upgrades without requiring extensive hardware changes.

Nm Technology: 14nm

Benefits of 14nm NM Technology

The HPE Gold 6142M Processor Kit utilizes 14nm NM (nanometer) technology, which refers to the size of the transistors used in the processor's fabrication process. The smaller the transistor size, the more transistors can be packed onto a single chip, resulting in improved performance, power efficiency, and thermal management.

Increased Performance

The 14nm NM technology used in the HPE Gold 6142M Processor Kit allows for increased transistor density on the chip, enabling more processing power. With a higher number of transistors available, the processor can execute instructions more quickly and efficiently, resulting in improved overall performance. This is particularly beneficial for applications that require intense computational power, such as scientific simulations, video editing, and data analysis.

Enhanced Power Efficiency

A smaller transistor size, such as the 14nm offered by the HPE Gold 6142M Processor Kit, improves power efficiency. The reduced size results in lower power consumption and less heat generation, allowing for more efficient use of resources. This is especially important for users who prioritize energy efficiency or operate in environments with limited cooling capabilities.

Improved Thermal Management

The 14nm NM technology enables better thermal management by reducing heat generation. The smaller transistors dissipate heat more effectively, preventing excessive temperature buildup and ensuring system stability. This is particularly significant for high-performance computing environments where thermal management plays a crucial role in maintaining optimal performance and prolonging the lifespan of the processor.

Support for Advanced Features

The utilization of 14nm NM technology provides support for advanced features and instruction sets. The increased transistor density allows for the integration of additional features, such as hardware virtualization support, advanced encryption capabilities, and enhanced multimedia instructions. This ensures compatibility with modern software and technologies, future-proofing your system and enabling you to take advantage of the latest advancements in computing.

Importance of NM Technology in Processor Selection

The choice of NM technology is a critical factor to consider when selecting a processor as it directly impacts performance, power efficiency, and thermal management. The 14nm NM technology used in the HPE Gold 6142M Processor Kit offers users a balance between performance and power efficiency, making it an excellent choice for various applications ranging from high-performance computing to everyday tasks.

Power Consumption: 150W

Benefits of 150W Power Consumption

The HPE Gold 6142M Processor Kit has a power consumption rating of 150W. Power consumption refers to the amount of electrical energy a processor requires to operate under normal conditions. The power consumption rating is a crucial factor to consider when selecting a processor as it determines system power requirements, heat generation, and overall energy efficiency.

High-Performance