HPE 874736-001 Intel Xeon Gold 6130 16 Core 2.1GHZ 22MB L3 Cache 10.4GT/S UPI Speed
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Product Specifications
General Details
- Manufacturer: HPE
- Type: Server Processor
- Part Number: 874736-001
- Model: Gold 6130
Technical Features
- Core Count: 16 cores
- Base Clock Speed: 2.10 GHz
- Maximum Turbo Frequency: 3.70 GHz
- UltraPath Interconnect (UPI) Speed: 10.4 GT/s
- UPI Links: 3
- Instruction Set: 64-bit
- Instruction Set Extensions: Intel® SSE4.2, Intel® AVX, Intel® AVX2, Intel® AVX-512
Cache Memory
- L3 Cache Size: 22 MB
- Process Technology: 14 nm
- Thermal Design Power (TDP): 125 W
- Socket Compatibility: FCLGA3647
Memory Capabilities
- Maximum Memory Size: 768 GB (dependent on memory type)
- Supported Memory Types: DDR4-2666
- Maximum Memory Speed: 2.67 GHz
- Memory Channels: Up to 6
- ECC Memory Support: Yes
Key Benefits
- Enhanced multitasking with a 16-core architecture.
- Superior performance with turbo boost capabilities.
- Robust memory options support large workloads.
- Efficient power consumption with a TDP of only 125 W.
Compatibility Notes
- Designed for high-performance server applications.
- Ideal for data centers requiring advanced processing power.
- Compatible with a range of HPE server configurations.
Core Count: 16
The HPE Xeon Gold 6130 Processor boasts an impressive core count of 16, making it a powerhouse for demanding workloads and applications. With 16 cores, this processor provides exceptional performance and multitasking capabilities, allowing users to handle complex tasks with ease.
Improved Performance
The high core count of the HPE Xeon Gold 6130 Processor translates into improved performance for users. With more cores available, the processor can handle multiple tasks simultaneously, resulting in faster processing times and increased productivity. Whether you're running resource-intensive software or performing data analysis, the 16-core configuration ensures smooth and efficient operation.
Enhanced Multitasking
Thanks to the 16 cores, users can seamlessly multitask without experiencing slowdowns or performance bottlenecks. Each core can handle different processes independently, enabling users to run multiple applications simultaneously without compromising performance. This is particularly beneficial for professionals who need to work with multiple virtual machines, perform complex simulations, or run parallel computing tasks.
Scalability and Future-Proofing
The 16-core configuration of the HPE Xeon Gold 6130 Processor provides scalability and future-proofing for users. As software and applications continue to evolve and become more resource-intensive, having a high core count ensures that your system can handle future demands without requiring a processor upgrade. This allows users to save costs in the long run by investing in a powerful processor that can adapt to evolving technology.
Optimized Server Performance
In server environments, the 16 cores of the HPE Xeon Gold 6130 Processor enable efficient workload distribution across multiple threads. This results in optimized server performance and improved response times for critical applications. Whether you're running a data center or managing a cloud infrastructure, the high core count ensures that your server can handle heavy workloads and deliver a smooth user experience.
Highly Parallel Workloads
For users dealing with highly parallel workloads, such as scientific simulations or video rendering, the 16-core configuration of the HPE Xeon Gold 6130 Processor is invaluable. These workloads can take advantage of the parallel processing capabilities offered by multiple cores, significantly reducing processing times and enabling faster results. With 16 cores at your disposal, you can tackle even the most demanding tasks efficiently.
Optimal Gaming Performance
Gamers can also benefit from the 16-core configuration of the HPE Xeon Gold 6130 Processor. Many modern games are designed to take advantage of multiple cores, allowing for smoother gameplay and improved frame rates. With 16 cores, this processor ensures that you can enjoy a seamless gaming experience without any lag or performance issues.
Efficient Virtualization
If you frequently work with virtual machines, the 16-core configuration of the HPE Xeon Gold 6130 Processor is ideal. Virtualization requires significant processing power to run multiple operating systems simultaneously, and the high core count ensures that each virtual machine receives sufficient resources for optimal performance. Whether you're running a virtualized server or using virtual machines for testing and development purposes, the 16 cores offer excellent virtualization capabilities.
Base Clock Speed: 2.1GHz
The HPE Xeon Gold 6130 Processor features a base clock speed of 2.1GHz, providing a solid foundation for efficient and reliable performance. The base clock speed represents the frequency at which the processor operates under normal conditions without any turbo boost or overclocking.
Stable and Consistent Performance
With a base clock speed of 2.1GHz, users can expect stable and consistent performance from the HPE Xeon Gold 6130 Processor. The processor operates at this frequency by default, ensuring that all tasks are handled efficiently without any drastic fluctuations in processing power. This is particularly important for applications and workloads that require a steady and reliable processor performance.
Energy Efficiency
The lower base clock speed of 2.1GHz contributes to the energy efficiency of the HPE Xeon Gold 6130 Processor. Operating at a lower frequency reduces power consumption, resulting in lower energy costs and reduced environmental impact. This is especially beneficial for organizations running large-scale server farms or data centers, where energy efficiency is a critical factor in reducing operational expenses.
Cooler Operation
The base clock speed of 2.1GHz also contributes to the cooler operation of the HPE Xeon Gold 6130 Processor. The lower frequency generates less heat compared to processors with higher base clock speeds, resulting in improved thermal management and reduced cooling requirements. This is particularly advantageous for systems with limited cooling capabilities or compact form factors where heat dissipation is a concern.
Overclocking Potential
While the base clock speed of 2.1GHz ensures stable performance, it also provides room for overclocking enthusiasts to push the processor beyond its default frequency. Overclocking allows users to increase the clock speed above the base frequency, unlocking additional performance potential. However, it's important to note that overclocking may void warranties and requires adequate cooling solutions to prevent overheating.
Customized Performance
The base clock speed of 2.1GHz allows users to customize the performance of the HPE Xeon Gold 6130 Processor according to their specific requirements. Whether you need a stable and energy-efficient operation or prefer to overclock for maximum performance, the base clock speed provides a starting point for customization based on your needs.
Application Compatibility
Many applications and software are designed to work optimally within certain clock speed ranges. The base clock speed of 2.1GHz ensures compatibility with a wide range of applications, ensuring that they can run smoothly without any issues related to clock speed limitations. This allows users to take full advantage of their software ecosystem without worrying about potential performance bottlenecks.
L3 Cache: 22MB
The HPE Xeon Gold 6130 Processor is equipped with a generous L3 cache size of 22MB, providing fast and efficient data access for improved performance. The L3 cache serves as a high-speed memory located closer to the processor cores, reducing latency and enhancing overall system responsiveness.
Accelerated Data Access
With a large L3 cache size of 22MB, the HPE Xeon Gold 6130 Processor accelerates data access by storing frequently accessed data closer to the processor cores. This reduces the time required to fetch data from system memory, resulting in faster processing times and improved overall performance. Whether you're working with large datasets or running memory-intensive applications, the L3 cache ensures that data is readily available when needed.
Improved Workload Performance
The generous L3 cache size of 22MB plays a vital role in improving workload performance. The larger cache enables the processor to store more instructions and data, reducing the need to access system memory frequently. This results in smoother multitasking, faster program execution, and improved response times for critical applications. Users can experience enhanced productivity and efficiency while working with resource-intensive workloads.
Efficient Complex Calculations
For users dealing with complex calculations, such as scientific simulations or financial modeling, the 22MB L3 cache size of the HPE Xeon Gold 6130 Processor is highly beneficial. These calculations often involve manipulating large datasets and performing numerous iterations. The larger cache size allows the processor to hold more data, reducing data transfer times and speeding up complex calculations. This results in faster results and improved efficiency for users.
Virtual Machine Performance
In virtualized environments, the 22MB L3 cache size enhances virtual machine performance. Each virtual machine can benefit from the larger cache, resulting in reduced latency and improved response times. This is particularly important when running multiple virtual machines simultaneously, as it ensures smooth and efficient operation without any performance degradation.
Faster Application Load Times
The HPE Xeon Gold 6130 Processor's 22MB L3 cache size significantly improves application load times. Frequently used instructions and data are stored in the cache, allowing for quick retrieval when launching applications. This leads to reduced wait times and a more seamless user experience. Whether you're launching productivity software or resource-intensive applications, the larger cache ensures that they load quickly and efficiently.
Smooth Multimedia Experience
The generous L3 cache size also enhances multimedia experiences for users. Whether you're streaming high-definition videos or editing multimedia content, the larger cache facilitates faster data access, ensuring smooth playback and real-time editing capabilities. This is particularly important for professionals in industries such as media production or game development, where multimedia tasks require efficient data handling.
Upi Speed: 10.4GT/s
The HPE Xeon Gold 6130 Processor features an impressive Upi Speed of 10.4GT/s (Giga Transfers per second), enabling fast and efficient communication between processor sockets within a system. The Upi Speed is a critical factor in multi-socket server configurations, where multiple processors are interconnected to work together seamlessly.
Scalability and Flexibility
The 10.4GT/s Upi Speed of the HPE Xeon Gold 6130 Processor provides scalability and flexibility for multi-socket server configurations. In environments where high-performance computing or extensive multitasking is required, multiple processors can be interconnected to distribute workloads efficiently. The high Upi Speed ensures that data can be transferred rapidly between the processors, enabling seamless collaboration and improved overall performance.
Enhanced Data Access
The fast Upi Speed of 10.4GT/s accelerates data access within multi-socket systems. When data needs to be shared or processed across different processors, the high-speed interconnect ensures minimal latency and efficient data transfer. This is particularly beneficial for applications that require frequent communication between processor sockets, such as distributed databases or parallel computing tasks.
Improved Server Performance
In multi-socket server configurations, the HPE Xeon Gold 6130 Processor's high Upi Speed enhances overall system performance. Multiple processors can work together to handle heavy workloads and large datasets efficiently. The fast interconnectivity provided by the high Upi Speed enables efficient workload distribution, resulting in improved server performance and reduced response times for critical applications.
Load Balancing
The Upi Speed of 10.4GT/s plays a crucial role in load balancing within multi-socket systems. Load balancing ensures that workloads are evenly distributed across all processors, optimizing resource utilization and preventing bottlenecks. The high Upi Speed allows for rapid communication between processors, facilitating efficient load balancing and ensuring that each processor contributes to the overall performance.
Seamless Virtualization
In virtualized environments, the 10.4GT/s Upi Speed enhances virtual machine performance and management. Multiple processors can collaborate to handle the demands of running multiple virtual machines simultaneously. The fast interconnectivity enables efficient communication between the processors, ensuring smooth operation and improved response times for virtualized workloads.
Highly Parallel Computing
For users working with highly parallel workloads, such as scientific simulations or machine learning, the high Upi Speed of 10.4GT/s is crucial. These workloads often involve distributing tasks across multiple processors to leverage parallel processing capabilities. The fast interconnectivity ensures rapid data transfer between the processors, enabling efficient parallel computing and faster results.
Socket: FCLGA3647
The HPE Xeon Gold 6130 Processor utilizes the FCLGA3647 socket, providing a robust and reliable connection between the processor and the motherboard. The FCLGA3647 socket is designed specifically for Intel Xeon processors, offering high performance and compatibility.
Secure and Stable Connection
The FCLGA3647 socket ensures a secure and stable connection between the HPE Xeon Gold 6130 Processor and the motherboard. The socket features a locking mechanism that securely holds the processor in place, preventing accidental disconnections or damage during operation. This provides peace of mind for users, knowing that their processor is securely installed and will not become loose or disconnected under normal usage conditions.
High Performance Compatibility
The FCLGA3647 socket is specifically designed for Intel Xeon processors, ensuring optimal performance and compatibility. The socket provides a direct interface between the processor and the motherboard, allowing for fast and efficient communication. This ensures that the HPE Xeon Gold 6130 Processor can fully leverage its capabilities and deliver high-performance computing in various applications and workloads.
Server-Grade Reliability
The FCLGA3647 socket is widely used in server-grade hardware, making it an ideal choice for users requiring reliable and robust performance. In server environments, where 24/7 operation and mission-critical tasks are common, the FCLGA3647 socket offers the necessary reliability to handle demanding workloads and ensure uninterrupted operation. Whether you're running a data center or managing a cloud infrastructure, the FCLGA3647 socket provides peace of mind with its proven track record in server applications.
Scalability and Upgradeability
The FCLGA3647 socket allows for scalability and upgradeability, making it suitable for future expansion. As technology evolves and new processors become available, the FCLGA3647 socket ensures that users can easily upgrade their systems without needing to replace the entire motherboard. This allows for cost-effective upgrades, enabling users to adapt to changing performance requirements without significant investment.
Compatibility with Server Motherboards
The FCLGA3647 socket is widely supported by server motherboards from various manufacturers. This ensures compatibility with a wide range of hardware options, allowing users to choose the motherboard that best suits their specific requirements. Whether you're building a new server or upgrading an existing one, the FCLGA3647 socket offers flexibility and compatibility.
Efficient Thermal Design
The FCLGA3647 socket features an efficient thermal design that facilitates effective heat dissipation. The socket incorporates heat sinks and other thermal management features to ensure that the processor remains within safe operating temperatures. This is particularly important for high-performance applications and server environments, where efficient cooling is crucial for maintaining system stability and preventing thermal throttling.
Manufacturing Technology: 14nm
The HPE Xeon Gold 6130 Processor is manufactured using the advanced 14nm process technology. The manufacturing technology refers to the size of the transistors and other components on the processor, with a smaller size indicating greater efficiency and improved performance.
Enhanced Performance and Efficiency
The 14nm manufacturing technology used in the HPE Xeon Gold 6130 Processor allows for enhanced performance and efficiency compared to previous generations. The smaller size of the transistors enables more transistors to be packed onto the same die area, resulting in increased processing power. Additionally, the reduced size reduces power leakage and improves overall energy efficiency, leading to lower power consumption and reduced operating costs.
Improved Thermal Management
The 14nm manufacturing technology contributes to improved thermal management in the HPE Xeon Gold 6130 Processor. The smaller transistor size generates less heat compared to larger transistors, allowing for more efficient heat dissipation. This is particularly important in high-performance applications or server environments where maintaining optimal operating temperatures is crucial for system stability and longevity.
Higher Clock Speeds
The 14nm manufacturing technology enables higher clock speeds in the HPE Xeon Gold 6130 Processor. The smaller transistor size reduces signal propagation delays, allowing for faster switching times and improved overall performance. This results in higher clock speeds, which translate into faster processing times, reduced latency, and improved user experience.
Increased Transistor Density
The 14nm manufacturing technology allows for increased transistor density in the HPE Xeon Gold 6130 Processor. The smaller size of the transistors enables more transistors to be packed onto the same die area, increasing the processor's computational capabilities.