HPE 860669-B21 Intel Xeon Gold 6142 16-Core 2.60GHz 10.40GT/s UPI 22MB L3 Cache 14NM 150W Processor
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Product Overview
Main Information
- Manufacturer: HPE
- Part Number: 860669-B21
- Model: Gold 6142
- Type: Server Processor
Technical Specifications
Processor Details
- Core Count: 16-core
- Base Clock Speed: 2.60 GHz
- Maximum Turbo Frequency: 3.70 GHz
- UltraPath Interconnect (UPI) Speed: 10.4 GT/s
- Number of UPI Links: 3
- Instruction Set: 64-bit
- Instruction Set Extensions:
- Intel® SSE4.2
- Intel® AVX
- Intel® AVX2
- Intel® AVX-512
Cache Memory Configuration
- L3 Cache Size: 22 MB
- Manufacturing Process: 14nm
- Max Thermal Design Power (TDP): 150 W
- Compatible Socket: FCLGA3647
Memory Specifications
Memory Capacity and Types
- Maximum Memory Size: 768 GB (varies by memory type)
- Supported Memory Types: DDR4-2666
- Peak Memory Speed: 2.67 GHz
- Maximum Memory Channels: 6
- ECC Memory Support: Yes
Cores: 16
Improved Performance
The HPE Intel Xeon Gold 6142 Processor is equipped with an impressive 16 cores, making it a powerhouse for demanding workloads and resource-intensive applications. With each core capable of executing multiple tasks simultaneously, users can experience improved performance and faster processing times. Whether you are running complex simulations, performing data analysis, or running virtual machines, the 16 cores ensure smooth and efficient multitasking.
Enhanced Productivity
Having 16 cores at your disposal allows for increased productivity. Users can run multiple applications simultaneously without experiencing any lag or slowdowns. This feature is especially beneficial for professionals who rely on multitasking to accomplish their tasks efficiently. Whether you are a content creator working with graphics-intensive software or a data scientist analyzing large datasets, the 16 cores enable seamless multitasking, improving overall productivity.
Optimized Resource Allocation
The 16 cores of the HPE Intel Xeon Gold 6142 Processor enable efficient resource allocation. With a higher core count, the processor can distribute the workload more evenly across the available cores. This translates to better utilization of system resources, ensuring that each task receives sufficient processing power. Users can expect improved system responsiveness and reduced bottlenecks, resulting in a smoother computing experience.
Parallel Processing
Parallel processing is a crucial advantage offered by the 16 cores of this processor. By dividing tasks into smaller sub-tasks and allocating them to different cores, parallel processing enables faster execution and completion of complex operations. This is particularly beneficial for applications that can be parallelized, such as scientific simulations, video rendering, and financial modeling. With the ability to divide and conquer tasks efficiently, users can save valuable time and increase their productivity.
High Scalability
The 16 cores of the HPE Intel Xeon Gold 6142 Processor provide high scalability, allowing users to scale their applications and workloads as needed. Whether you require additional processing power for future growth or want to handle a sudden surge in demand, the processor's 16 cores can accommodate increased workloads without sacrificing performance. This scalability ensures that your system can handle evolving business needs and adapt to changing requirements.
Virtualization Efficiency
Virtualization is a critical aspect of modern computing environments. The 16 cores of this processor enhance virtualization efficiency, enabling users to run multiple virtual machines simultaneously with minimal performance impact. This is particularly advantageous for businesses and organizations that rely on virtualization for server consolidation, cost savings, and improved resource utilization. The 16 cores ensure smooth operation of virtualized environments and optimize the overall virtualization experience.
Base Clock Speed: 2.60GHz
Responsive Performance
The HPE Intel Xeon Gold 6142 Processor boasts a base clock speed of 2.60GHz, providing users with responsive performance for their computing tasks. The base clock speed represents the frequency at which the processor operates under normal conditions without any turbo boost or overclocking. With a higher base clock speed, users can expect quicker response times when launching applications, opening files, and executing everyday computing tasks.
Smooth Multitasking
The 2.60GHz base clock speed enables smooth multitasking by ensuring that each task receives sufficient processing power. Whether you are working on multiple documents, browsing the web while streaming media, or running background applications, the processor's base clock speed ensures that your system remains responsive and capable of handling concurrent tasks without any noticeable slowdowns.
Efficient Single-Threaded Performance
While multithreaded performance is crucial for handling parallel tasks, single-threaded performance is equally important for applications that rely on a single core. The 2.60GHz base clock speed provides efficient single-threaded performance, ensuring that applications that cannot utilize multiple cores still run smoothly and efficiently. Whether you are using legacy software or applications that are not optimized for multithreading, the processor's base clock speed guarantees optimal performance.
Quick Application Launches
The 2.60GHz base clock speed significantly reduces application launch times. When opening resource-intensive software or large files, the processor's higher base clock speed allows for quicker loading and initialization. This feature is crucial for professionals who regularly work with large datasets, complex models, or design software. Faster application launches translate to improved productivity and reduced waiting times, allowing users to focus on their work without unnecessary delays.
Seamless Media Streaming
For users who enjoy media streaming or engaging in video conferencing, the 2.60GHz base clock speed ensures smooth playback and uninterrupted streaming. Streaming high-definition videos or participating in online meetings requires a processor capable of handling the data processing requirements in real-time. The HPE Intel Xeon Gold 6142 Processor's base clock speed guarantees a seamless media experience without buffering or lag, enhancing the overall user experience.
Efficient Web Browsing
Web browsing is a common activity for both personal and professional use. The 2.60GHz base clock speed of this processor ensures efficient web browsing by quickly rendering web pages and handling JavaScript-intensive websites. With faster page loading times, users can navigate websites smoothly and enjoy a responsive browsing experience. This is especially beneficial for tasks that involve extensive web research or online collaboration, where efficient web browsing is essential.
Bus Speed: 10.40GT/s UPI
Improved Data Transfer
The HPE Intel Xeon Gold 6142 Processor features a bus speed of 10.40GT/s UPI (Ultra Path Interconnect). The bus speed represents the rate at which data can be transferred between the processor, memory, and other system components. With a higher bus speed, users can experience improved data transfer rates, resulting in faster overall system performance. This is particularly important for tasks that involve frequent data access and transfer, such as database management, file sharing, and virtualization.
Reduced Bottlenecks
A higher bus speed helps to reduce bottlenecks in the system architecture. Bottlenecks occur when the data transfer rate between components becomes a limiting factor for overall system performance. The 10.40GT/s UPI bus speed ensures that data can flow seamlessly between the processor and other components, minimizing bottlenecks and maximizing system efficiency. Users can enjoy a smoother computing experience without delays caused by data transfer limitations.
Enhanced Scalability
The 10.40GT/s UPI bus speed enhances system scalability by enabling efficient communication between multiple processors in a multi-socket configuration. This feature is especially important for high-performance computing environments and servers that require massive parallel processing capabilities. With the ability to handle large volumes of data traffic between processors, the HPE Intel Xeon Gold 6142 Processor ensures optimal performance in scenarios that demand extensive computational power.
Accelerated Memory Access
The high bus speed of 10.40GT/s UPI facilitates accelerated memory access. Memory access speed is crucial for applications that rely on frequent data retrieval and processing. Whether you are working with large datasets or running memory-intensive applications, the processor's high bus speed ensures efficient memory access, reducing latency and improving overall system responsiveness. This feature is particularly beneficial for tasks that involve real-time data processing or analytics.
Efficient Interconnectivity
The 10.40GT/s UPI bus speed enables efficient interconnectivity between the processor and other peripheral devices, such as storage drives and network cards. With faster data transfer rates, users can experience improved performance when accessing and transferring data to external devices. This is advantageous for tasks that involve large file transfers, backups, or accessing network resources. The efficient interconnectivity provided by the high bus speed enhances productivity and minimizes the time required for data-intensive operations.
Seamless Virtualization
Virtualization environments heavily rely on efficient data transfer between the host machine and virtual machines. The 10.40GT/s UPI bus speed ensures seamless virtualization by providing fast and reliable communication between the processor and virtualized resources. Users can run multiple virtual machines simultaneously without experiencing performance degradation or bottlenecks. This feature is particularly important for businesses that rely on virtualization for server consolidation, resource optimization, and cost savings.
Cache: 22MB L3
Faster Data Access
The HPE Intel Xeon Gold 6142 Processor incorporates a generous 22MB L3 cache. The cache acts as a high-speed memory pool that stores frequently accessed data, reducing the need to fetch data from slower main memory. With a larger cache size, more data can be stored closer to the processor, resulting in faster data access times. This feature is vital for applications that require rapid access to frequently used data, such as databases, content creation software, and virtualization environments.
Improved System Responsiveness
The 22MB L3 cache enhances system responsiveness by reducing memory latency. Latency refers to the time delay between a request for data and its availability for processing. By storing frequently accessed data in the cache, the processor can retrieve it quickly, minimizing latency and improving overall system responsiveness. Users can experience smoother operation, faster application launches, and reduced waiting times when working with data-intensive tasks.
Efficient Resource Utilization
The larger cache size of 22MB L3 enables efficient resource utilization by reducing memory access bottlenecks. When data is readily available in the cache, the processor can access it quickly without waiting for it to be retrieved from main memory. This allows for better utilization of system resources, ensuring that the processor spends more time processing data rather than waiting for memory access. Users can expect improved system performance and reduced delays caused by memory bottlenecks.
Accelerated Data-Intensive Applications
Data-intensive applications, such as scientific simulations, financial modeling, and video editing, benefit greatly from the generous 22MB L3 cache. These applications often require frequent access to large datasets or complex calculations. With a larger cache size, the processor can store more data and instructions, reducing the need for constant retrieval from main memory. This accelerates the execution of data-intensive tasks and ensures smooth performance even with demanding workloads.
Enhanced Virtualization Performance
Virtualization environments heavily rely on efficient memory access and data retrieval. The 22MB L3 cache improves virtualization performance by reducing latency and improving overall system responsiveness. When running multiple virtual machines simultaneously, the cache stores frequently accessed data, ensuring that virtualized resources can be accessed quickly. This enhances the performance and efficiency of virtualized environments and allows for seamless multitasking across multiple virtual machines.
Smooth Gaming Experience
Gamers can also benefit from the 22MB L3 cache when running resource-intensive games. The cache stores frequently accessed game data, such as textures, models, and code instructions, ensuring quick access during gameplay. This reduces loading times and improves overall game performance, providing a smoother gaming experience. Gamers can enjoy immersive gameplay without interruptions caused by slow data access, resulting in increased enjoyment and competitiveness.
Manufacturing Technology: 14NM
Improved Efficiency
The HPE Intel Xeon Gold 6142 Processor is manufactured using a 14nm (nanometer) process technology. Smaller process technology allows for the fabrication of smaller transistors and more densely packed circuitry on the processor chip. This results in improved efficiency as the smaller transistors require less power to operate and generate less heat. The 14nm manufacturing technology ensures that the processor delivers higher performance while consuming less power, reducing energy costs and environmental impact.
Increased Performance
The 14nm manufacturing technology enables increased performance by allowing for higher transistor counts on the processor chip. With more transistors available, the processor can execute more instructions simultaneously, resulting in improved overall performance. This is particularly beneficial for applications that can take advantage of parallel processing, such as scientific simulations, rendering, and machine learning. The increased transistor count provided by the 14nm manufacturing technology enhances computational power and ensures faster execution of complex tasks.
Lower Power Consumption
One of the significant advantages of the 14nm manufacturing technology is its ability to reduce power consumption. With smaller transistors requiring less power to operate, the processor achieves better energy efficiency. Lower power consumption translates to reduced electricity bills and contributes to a greener computing environment by minimizing carbon footprint. Additionally, lower power consumption results in less heat generation, reducing the need for extensive cooling solutions and improving system reliability.
Enhanced Battery Life
For users who rely on laptops or mobile devices powered by the HPE Intel Xeon Gold 6142 Processor, the 14nm manufacturing technology prolongs battery life. The processor's reduced power consumption ensures that laptops can operate for extended periods without requiring frequent recharging. This is particularly advantageous for professionals on the go or individuals who depend on their devices in situations where a power outlet is not readily available. The extended battery life allows for uninterrupted work or entertainment without the need for frequent interruptions to recharge.
Cool and Quiet Operation
The 14nm manufacturing technology contributes to cool and quiet operation of the processor. With reduced power consumption and heat generation, the processor requires less cooling, resulting in quieter system operation. This is especially important in noise-sensitive environments, such as offices or studios, where quiet operation is desired. The reduced heat output also contributes to better system reliability by minimizing the risk of overheating and extending the lifespan of components.
Future-Proofing
The 14nm manufacturing technology ensures that the HPE Intel Xeon Gold 6142 Processor is future-proofed to some extent. Smaller process technology allows for further advancements in chip design and performance improvements. As the industry progresses towards even smaller process technologies, users can be confident that their processor will remain relevant and capable of handling emerging technologies and applications. The 14nm manufacturing technology provides a solid foundation for long-term usage and adaptability to future computing needs.
Power Consumption: 150W
Energy Efficiency
The HPE Intel Xeon Gold 6142 Processor features a power consumption rating of 150W. This indicates the amount of power required by the processor to operate at its full capacity. With a power-efficient design, the processor ensures optimal energy utilization, resulting in reduced electricity costs and environmental impact. Energy efficiency is becoming increasingly important in today's world, and the 150W power consumption rating demonstrates that this processor is engineered to strike a balance between performance and energy efficiency.
Reduced Operating Costs
The power consumption rating of 150W helps to reduce operating costs for businesses and individuals. By requiring less power to operate, the processor contributes to lower electricity bills over its lifespan. This is particularly beneficial for organizations that operate large-scale computing systems or data centers, where energy costs can be substantial. The reduced operating costs allow businesses to allocate resources to other areas, improving overall financial efficiency and sustainability.
Environmentally Friendly
The HPE Intel Xeon Gold 6142 Processor's power consumption rating of 150W makes it environmentally friendly. By consuming less power, the processor reduces carbon emissions associated with electricity production. This contributes to a greener computing environment and aligns with sustainability goals. Choosing energy-efficient processors helps individuals and organizations reduce their carbon footprint and contribute to a more sustainable future.
Cooler Operation
The 150W power consumption rating ensures cooler operation of the processor. With lower power consumption, less heat is generated during operation, reducing the strain on cooling systems. Cooler operation not only improves system reliability but also enables quieter system performance. This is particularly important in noise-sensitive environments or situations where maintaining optimal system temperatures is critical, such as server rooms or audio recording studios.
Compatibility with Existing Infrastructure
The 150W power consumption rating ensures compatibility with existing infrastructure and power supply capabilities. This is particularly important for businesses or individuals who are upgrading their systems without making significant changes to their power distribution systems. By choosing a processor with a power consumption rating that aligns with existing infrastructure, users can avoid the need for costly upgrades or modifications to accommodate higher power requirements.
Power Management Features
The HPE Intel Xeon Gold 6142 Processor incorporates advanced power management features that further enhance energy efficiency. These features dynamically adjust power consumption based on workload demands, allowing the processor to operate at lower power levels during periods of lower utilization. This intelligent power management ensures optimal energy usage without sacrificing performance. Users can benefit from reduced power consumption during lighter workloads, saving energy and reducing costs while maintaining peak performance when needed.