HPE 826882-B21 Xeon Gold 6148 20-Core Processor 2.4GHz 27.5MB L3 Cache
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Overview of the Product
Explore the capabilities of a robust server processor designed for high-performance computing:
- Type of Product: Server Processor
- Brand: Hewlett Packard Enterprise
- Part Number: 826882-B21
- Model: Gold 6148
Technical Specifications
Core Features
- Number of Cores: 20-core
- Base Clock Speed: 2.40 GHz
- Maximum Turbo Frequency: 3.70 GHz
- Ultrapath Interconnect (UPI) Speed: 10.4 GT/s
- UPI Links: 3
- Instruction Set Architecture: 64-bit
- Supported Instruction Set Extensions:
- Intel® SSE4.2
- Intel® AVX
- Intel® AVX2
- Intel® AVX-512
Cache Memory Information
- L3 Cache Capacity: 27.5 MB
- Manufacturing Process: 14nm
- Maximum Thermal Design Power (TDP): 150W
- Compatible Socket: FCLGA3647
Memory Capabilities
Specifications and Support
- Maximum Memory Size: Up to 768 GB (dependent on memory type)
- Supported Memory Types: DDR4-2666
- Peak Memory Speed: 2.67 GHz
- Maximum Memory Channels: 6
- ECC Memory Compatibility: Yes
Processor Type: Intel Xeon Gold 6148
The HPE 826882-B21 Processor is equipped with the powerful Intel Xeon Gold 6148 processor. With its exceptional performance and advanced features, the Intel Xeon Gold 6148 is designed to meet the demanding requirements of modern data centers and high-performance computing environments.
Unparalleled Performance
The Intel Xeon Gold 6148 processor offers unparalleled performance with its 20 cores and 40 threads. This means that it can handle multiple tasks simultaneously, enabling faster data processing and improved overall system performance. Whether you are running complex simulations, performing data analytics, or virtualizing workloads, the Intel Xeon Gold 6148 processor delivers the power and speed needed to tackle even the most demanding applications.
Enhanced Productivity
By utilizing the Intel Xeon Gold 6148 processor, users can experience enhanced productivity in their daily computing tasks. The high core count allows for more efficient multitasking, enabling users to work on multiple applications concurrently without experiencing performance bottlenecks. This is particularly beneficial for professionals working with resource-intensive software such as video editing or 3D modeling tools.
Improved Scalability
Scalability is a crucial aspect in modern computing environments, as businesses strive to accommodate increasing workloads and data volumes. The Intel Xeon Gold 6148 processor offers excellent scalability options, allowing organizations to easily scale their infrastructure to meet growing demands. With its large number of cores and threads, the processor can handle heavy workloads while maintaining optimal performance levels.
Enhanced Virtualization Capabilities
Virtualization has become an essential component of modern IT infrastructure. The Intel Xeon Gold 6148 processor is equipped with advanced virtualization technologies that enhance the efficiency and flexibility of virtualized environments. Features such as Intel Virtualization Technology (VT-x) and Intel Virtualization Technology for Directed I/O (VT-d) allow for improved performance and security in virtualized workloads, making it an ideal choice for businesses relying on virtualization.
Reliability and Security
The Intel Xeon Gold 6148 processor incorporates advanced security features to protect sensitive data and ensure system integrity. Features such as Intel Trusted Execution Technology (TXT) provide hardware-based security measures, protecting against threats such as malware or unauthorized access. Additionally, the processor supports Intel Run Sure Technology, which enhances system reliability and reduces the risk of downtime.
Core Count: 20
The HPE 826882-B21 Processor boasts an impressive core count of 20, making it a powerhouse in terms of multitasking capabilities and processing power. The high core count offers numerous benefits to users in various computing environments.
Enhanced Multithreading
With 20 cores and 40 threads, the HPE 826882-B21 Processor can handle a significant number of simultaneous tasks. This is particularly advantageous for applications that can efficiently utilize multiple threads, such as video rendering, scientific simulations, and database management. By distributing computational tasks across multiple cores, users can experience significantly improved performance and reduced processing times.
Efficient Resource Allocation
In multitasking scenarios, the higher core count allows for more efficient resource allocation. Each core can be dedicated to specific tasks, ensuring optimal utilization of resources and preventing performance bottlenecks. This is especially important in environments where multiple users or applications are competing for system resources simultaneously.
Seamless Virtualization
Virtualized environments can greatly benefit from higher core counts. With 20 cores, the HPE 826882-B21 Processor enables efficient virtual machine deployment by allocating dedicated cores to each virtual instance. This ensures that each virtual machine can run independently without impacting the performance of others, resulting in improved overall system efficiency and responsiveness.
Future-Proofing
Investing in a processor with a high core count like the HPE 826882-B21 ensures that your system is prepared for future advancements in software and computing demands. As applications become more complex and capable of utilizing additional cores, having a high core count processor allows you to take advantage of these advancements without needing to upgrade your hardware.
Base Clock Speed: 2.4GHz
The HPE 826882-B21 Processor features a base clock speed of 2.4GHz. The base clock speed is an essential specification that determines the frequency at which the processor operates under normal conditions.
Efficient Single-Threaded Performance
While high core counts are beneficial for multitasking, single-threaded applications can benefit from higher clock speeds. The 2.4GHz base clock speed of the HPE 826882-B21 Processor ensures efficient execution of single-threaded tasks, providing fast response times and smooth operation even in applications that do not take full advantage of multiple cores.
Responsiveness and Smooth User Experience
The base clock speed directly impacts the responsiveness and overall user experience of a system. Higher clock speeds allow for faster execution of tasks, resulting in reduced waiting times and improved system responsiveness. Whether you are browsing the web, editing documents, or running basic productivity applications, the 2.4GHz base clock speed ensures a smooth and enjoyable user experience.
Boosting Performance with Turbo Boost Technology
In addition to the base clock speed, the HPE 826882-B21 Processor features Intel Turbo Boost Technology, which dynamically adjusts the clock speed based on workload demands. This technology allows the processor to operate at higher frequencies when additional performance is needed, providing a significant boost in processing power for demanding tasks.
Energy Efficiency
The 2.4GHz base clock speed of the HPE 826882-B21 Processor also contributes to its energy efficiency. Lower clock speeds result in reduced power consumption, making it an ideal choice for environments where energy efficiency is a priority. By operating at lower clock speeds when not under heavy load, the processor helps reduce overall power consumption and lowers operational costs.
L3 Cache: 27.5MB
The HPE 826882-B21 Processor is equipped with a generous 27.5MB of L3 cache. The L3 cache plays a crucial role in improving overall system performance by reducing memory latency and enhancing data access speeds.
Faster Data Access
The L3 cache acts as a bridge between the processor and the main memory, storing frequently accessed data closer to the processing cores. With a larger cache size of 27.5MB, the HPE 826882-B21 Processor can hold more data within its cache, resulting in faster data access and reduced memory latency. This leads to improved overall system performance, especially in applications that heavily rely on accessing large amounts of data quickly.
Enhanced Multitasking Performance
The larger L3 cache size also benefits multitasking scenarios by allowing for more efficient data sharing between cores. With more data stored in the cache, cores can access shared data quickly, minimizing the need to access the main memory. This improves multitasking performance and enables smoother execution of simultaneous tasks without experiencing significant performance degradation.
Improved Gaming Experience
Gamers can also benefit from a larger L3 cache size. In gaming scenarios, frequent data access is required to load game assets and textures quickly. The 27.5MB L3 cache of the HPE 826882-B21 Processor ensures that game data is readily available, reducing load times and improving overall gaming experience. Gamers can enjoy smoother gameplay, reduced stuttering, and faster level loading times.
Optimized Virtualization Performance
Virtualized environments can experience significant performance improvements with a larger L3 cache. The increased cache size allows for better virtual machine density and improved performance for virtualized workloads. By reducing memory latency and improving data access speeds, the HPE 826882-B21 Processor ensures that each virtual machine can access its allocated resources efficiently, resulting in enhanced overall system performance and responsiveness.
Upi Speed: 10.4GT/S
The HPE 826882-B21 Processor features an impressive UPI (Ultra Path Interconnect) speed of 10.4GT/s. UPI is a high-speed interconnect technology used to connect multiple processors in a system.
High-Speed Data Transfer
The UPI speed of 10.4GT/s ensures fast and efficient data transfer between processors in multi-socket systems. This high-speed interconnect technology enables seamless communication and data sharing between processors, allowing for efficient parallel processing and improved system performance. Whether you are running complex simulations, performing data analytics, or scaling your infrastructure, the high UPI speed ensures optimal performance and data throughput.
Scalability and Expandability
The HPE 826882-B21 Processor's high UPI speed supports the scalability and expandability of multi-processor systems. With faster interconnect speeds, organizations can easily scale their infrastructure by adding additional processors without sacrificing performance. This allows businesses to meet growing demands and handle increasing workloads without the need for extensive hardware upgrades or replacements.
Improved System Resilience
In multi-processor systems, UPI plays a crucial role in ensuring system resilience and availability. The high UPI speed of 10.4GT/s enables efficient failover and load balancing mechanisms, allowing for seamless recovery in the event of a processor failure. By quickly redistributing workloads and maintaining system stability, the HPE 826882-B21 Processor with its high UPI speed ensures uninterrupted operation and minimizes downtime.
Enhanced Virtualization Performance
Virtualized environments can greatly benefit from the high UPI speed of the HPE 826882-B21 Processor. The fast interconnect between processors allows for efficient communication between virtual machines, reducing latency and improving overall virtualization performance. This ensures that each virtual machine can access shared resources quickly and efficiently, resulting in enhanced responsiveness and smoother execution of virtualized workloads.
Socket Type: FCLGA3647
The HPE 826882-B21 Processor is designed to fit into a socket with an FCLGA3647 interface. The socket type is an essential specification that determines the physical compatibility and connectivity of the processor with the motherboard.
Compatibility and Ease of Installation
The FCLGA3647 socket type ensures compatibility with compatible motherboards, providing a seamless installation process. With its standardized form factor, the HPE 826882-B21 Processor can easily be installed into motherboards supporting the FCLGA3647 socket type, making it a convenient choice for system upgrades or replacements.
Support for High-End Workstations and Servers
The FCLGA3647 socket type is commonly found in high-end workstations and server-grade motherboards. By choosing a processor with this socket type, users can take advantage of the advanced features and capabilities offered by these platforms. Whether you are building a powerful workstation for content creation or configuring a high-performance server for enterprise applications, the HPE 826882-B21 Processor's compatibility with the FCLGA3647 socket type ensures a seamless integration into your preferred platform.
Future-Proofing and Scalability
Investing in a processor with the FCLGA3647 socket type allows for future scalability and compatibility with upcoming generations of processors. The socket type is designed to accommodate future advancements in processor technology, ensuring that your system remains compatible with new releases without the need for a complete platform overhaul. This provides users with the flexibility to upgrade their processors in the future while retaining their existing infrastructure.
Robust Electrical Connectivity
The FCLGA3647 socket type offers robust electrical connectivity between the processor and the motherboard, ensuring reliable and efficient data transfer. The socket design provides enhanced electrical contact and stability, minimizing signal interference and improving overall system performance. This is particularly important in high-performance computing environments where data integrity and stability are crucial.
Manufacturing Technology: 14NM
The HPE 826882-B21 Processor is manufactured using a cutting-edge 14nm manufacturing technology. The manufacturing technology refers to the process used to fabricate the processor's semiconductor components, including transistors and interconnects.
Improved Performance and Efficiency
The 14nm manufacturing technology offers several benefits in terms of performance and efficiency. By shrinking the size of transistors, more transistors can be packed onto the same silicon die, resulting in increased processing power. Additionally, smaller transistors require less power to switch on and off, leading to improved energy efficiency and lower power consumption.
Higher Clock Speeds
The smaller transistor size made possible by 14nm technology allows for higher clock speeds compared to previous generations. Higher clock speeds translate to faster data processing, reduced waiting times, and improved overall system performance. Whether you are running resource-intensive applications or performing complex calculations, the 14nm manufacturing technology of the HPE 826882-B21 Processor ensures that you have the necessary processing power to handle demanding tasks.
Reduced Heat Generation
The 14nm manufacturing technology also contributes to reduced heat generation. Smaller transistors produce less heat during operation, resulting in improved thermal efficiency and lower heat dissipation requirements. This is particularly beneficial in environments where heat management is a concern, such as data centers or compact form factor systems. The reduced heat generation allows for better system cooling and enhanced long-term reliability.
Enhanced Power Efficiency
The 14nm manufacturing technology significantly improves power efficiency compared to previous generations. With smaller transistors and reduced power requirements, the HPE 826882-B21 Processor can operate at peak performance while minimizing power consumption. This not only reduces energy costs but also contributes to a greener and more sustainable computing environment.
Power Consumption: 150W
The HPE 826882-B21 Processor has a maximum power consumption of 150W. Power consumption is an essential consideration in modern computing environments, as it directly affects energy costs and system cooling requirements.
Energy Efficiency
With a maximum power consumption of 150W, the HPE 826882-B21 Processor is designed to provide a balance between performance and energy efficiency. The processor utilizes advanced power management technologies to optimize power usage based on workload demands, ensuring that energy is efficiently allocated without sacrificing performance. This allows businesses to reduce their carbon footprint and lower operational costs while still benefiting from powerful computing capabilities.
Reduced Cooling Requirements
Efficient power management and lower power consumption result in reduced heat generation, which in turn lowers the cooling requirements for the system. With a maximum power consumption of 150W, the HPE 826882-B21 Processor requires less cooling infrastructure, resulting in lower energy consumption and quieter operation. This is particularly advantageous in environments where noise level and heat dissipation are critical considerations, such as office spaces or small data centers.
Cost Savings
Reducing power consumption can lead to significant cost savings in the long run. By utilizing a processor with a maximum power consumption of 150W, businesses can reduce their energy bills and lower operational costs. Over time, the cumulative savings from reduced power consumption can make a substantial difference, especially in large-scale computing environments where multiple processors are deployed.
Environmentally Friendly
The HPE 826882-B21 Processor's lower power consumption contributes to a greener and more sustainable computing environment. By reducing energy usage, businesses can minimize their carbon footprint and contribute to environmental conservation efforts. Choosing energy-efficient components like the HPE 826882-B21 Processor is a responsible choice that aligns with corporate social responsibility goals and helps create a more sustainable future.
In conclusion, the HPE 826882-B21 Processor is a high-performance processor featuring the Intel Xeon Gold 6148 processor with its exceptional capabilities. The processor's high core count, base clock speed, generous L3 cache, fast UPI speed, FCLGA3647 socket type, advanced manufacturing technology, and efficient power consumption make it an ideal choice for demanding computing environments. Whether you are running complex simulations, virtualizing workloads, or performing data analytics, the HPE 826882-B21 Processor delivers the power, performance, and efficiency required for modern computing needs.