Intel Xeon Silver 4114 SR3GK 10-Core 2.2GHz Processor
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Product Details
Overview of the Intel SR3GK Xeon Silver 4114
- Type: Server Processor
- Manufacturer: Intel Corporation
- Part Number: SR3GK
- Model: Silver 4114
Core Specifications
Performance Features
- Core Count: 10 Cores
- Base Clock Speed: 2.20 GHz
- Max Turbo Boost Frequency: 3.00 GHz
- Ultra Path Interconnect (UPI) Speed: 9.6 GT/s
- Number of UPI Links: 2
Instruction Set and Extensions
- Instruction Set: 64-bit
- Extensions:
- Intel® SSE4.2
- Intel® AVX
- Intel® AVX2
- Intel® AVX-512
Cache and Power Specifications
Cache Memory
- L3 Cache Size: 13.75 MB
- Manufacturing Process: 14nm
Thermal and Power Management
- Maximum Thermal Design Power (TDP): 85W
- Compatible Socket Type: FCLGA3647
Memory Capabilities
Memory Specifications
- Maximum Supported Memory Size: 768 GB (dependent on memory type)
- Memory Type: DDR4-2400
- Maximum Memory Speed: 2.40 GHz
- Memory Channels: Up to 6
- ECC Memory Support: Yes
Core Count: 10
Improved Performance
The Intel Xeon Silver 4114 Processor is equipped with 10 cores, offering significant performance improvements compared to processors with fewer cores. With more cores, the processor can handle multiple tasks simultaneously, allowing for faster and more efficient processing. This is particularly beneficial for users who engage in resource-intensive activities such as video editing, 3D rendering, and data analysis.
Enhanced Multitasking
The 10-core configuration enables seamless multitasking capabilities. Users can run multiple applications simultaneously without experiencing lag or slowdowns. Whether you are streaming high-definition videos, running virtual machines, or working on complex projects, the Intel Xeon Silver 4114 Processor's high core count ensures smooth performance and efficient task management.
Scalability and Future-proofing
The 10-core design provides scalability for future growth and expansion. As software and applications become more demanding, having a higher core count ensures compatibility and optimal performance. By investing in a processor with 10 cores, users can future-proof their systems and ensure they can handle upcoming technological advancements without the need for an immediate upgrade.
Improved Virtualization Performance
For users engaging in virtualization tasks, the 10-core architecture of the Intel Xeon Silver 4114 Processor is particularly advantageous. Virtual machines require dedicated processing power, and the higher core count allows for better distribution of resources among multiple virtual environments. This results in improved performance, reduced latency and enhanced overall virtualization experience.
Efficient Resource Allocation
The Intel Xeon Silver 4114 Processor's 10 cores enable efficient resource allocation within a server environment. With multiple cores at their disposal, administrators can allocate specific tasks to different cores, ensuring optimal utilization of resources. This helps to prevent bottlenecks and maximize the overall efficiency of the system.
Base Clock Speed: 2.2GHz
Faster Processing
The base clock speed of 2.2GHz ensures that the Intel Xeon Silver 4114 Processor delivers fast and responsive performance. The higher the base clock speed, the faster the processor can execute instructions and complete tasks. This is essential for users who require quick processing for demanding applications and workloads.
Smooth Application Execution
With a base clock speed of 2.2GHz, the processor can handle applications with ease, providing a smooth user experience. Whether you are running productivity software, playing games, or editing multimedia content, the Intel Xeon Silver 4114 Processor's high base clock speed ensures that tasks are executed quickly and efficiently.
Efficient Single-Threaded Performance
The base clock speed plays a crucial role in single-threaded performance. Single-threaded tasks rely on a single core to execute instructions, and a higher base clock speed allows for faster execution of these tasks. This is particularly important for applications that are not optimized for multi-threading, as the processor's base clock speed determines their overall performance.
Seamless Real-Time Applications
Real-time applications such as audio and video editing, gaming, and live streaming require fast processing to ensure a seamless experience. The Intel Xeon Silver 4114 Processor's base clock speed of 2.2GHz provides the necessary power to handle these resource-intensive tasks without any noticeable lag or delays.
Quick Data Analysis
Data analysis often involves working with large datasets and complex algorithms. A higher base clock speed allows the Intel Xeon Silver 4114 Processor to process data more quickly, reducing the time required for analysis and enabling faster insights. This is advantageous for professionals working in fields such as finance, scientific research, and artificial intelligence.
L3 Cache: 13.75MB
Improved Data Access
The L3 cache is a type of memory that stores frequently accessed data for quick retrieval by the processor. With a generous L3 cache size of 13.75MB, the Intel Xeon Silver 4114 Processor can store a larger amount of frequently accessed data, reducing the need to access slower system memory. This results in improved overall performance and faster data processing.
Reduced Memory Latency
The larger L3 cache size helps to reduce memory latency, which is the time it takes for the processor to retrieve data from the system memory. By storing frequently accessed data closer to the processor, the Intel Xeon Silver 4114 Processor can access this data more quickly, resulting in reduced latency and improved responsiveness.
Enhanced Multithreaded Performance
The generous L3 cache size plays a significant role in improving multithreaded performance. With multiple cores accessing the L3 cache simultaneously, the processor can efficiently share data between threads, reducing contention and improving overall performance. This is particularly beneficial for applications that heavily rely on multithreading, such as video rendering and scientific simulations.
Optimized Virtualization Performance
The Intel Xeon Silver 4114 Processor's large L3 cache size enhances virtualization performance by reducing resource contention among virtual machines. With more cache available, each virtual machine can store frequently accessed data closer to the processor, minimizing latency and improving overall responsiveness. This allows for better consolidation of virtual machines and improved resource utilization.
Efficient Caching of Instructions
The L3 cache not only stores data but also caches instructions, which are the commands that the processor executes. With a larger L3 cache size, the Intel Xeon Silver 4114 Processor can store more instructions, reducing the need to fetch instructions from system memory. This results in faster instruction execution and improved overall system performance.
UPI Speed: 9.6GT/S
Faster Interconnectivity
The UPI (Ultra Path Interconnect) speed refers to the speed at which multiple processors communicate with each other in a multi-socket configuration. With a UPI speed of 9.6GT/S, the Intel Xeon Silver 4114 Processor ensures fast and efficient interconnectivity between processors, enabling seamless collaboration and data sharing.
Improved Scalability
The high UPI speed of 9.6GT/S allows for better scalability in multi-socket server environments. As more processors are added to a system, the UPI speed ensures that data can be quickly transferred between them, preventing any bottlenecks and ensuring optimal performance. This is particularly important for large-scale data centers and enterprise environments.
Enhanced Workload Distribution
In multi-socket configurations, workload distribution is crucial for efficient performance. The high UPI speed of the Intel Xeon Silver 4114 Processor enables rapid communication between processors, allowing for effective workload distribution. This ensures that each processor can handle its share of tasks without overburdening any individual processor.
Seamless Data Sharing
For applications that require data sharing or distributed computing, a high UPI speed is essential. The Intel Xeon Silver 4114 Processor's UPI speed of 9.6GT/S enables fast and efficient data sharing between processors, reducing latency and improving overall performance. This is beneficial for tasks such as scientific simulations, financial modeling, and big data analysis.
Improved System Reliability
The UPI speed also plays a role in system reliability. By enabling fast communication between processors, the Intel Xeon Silver 4114 Processor ensures that any errors or failures can be detected and addressed quickly. This helps to improve system stability and minimize the impact of potential failures on critical workloads.
Socket Type: FCLGA3647
Compatibility and Upgradability
The FCLGA3647 socket type is specifically designed for server-grade processors like the Intel Xeon Silver 4114 Processor. Choosing a processor with the FCLGA3647 socket ensures compatibility with a wide range of server motherboards. Additionally, this socket type allows for future upgrades to higher-end processors without the need to change the entire motherboard.
Robust Server Performance
The FCLGA3647 socket type is optimized for server performance. It provides a secure and stable connection between the processor and the motherboard, ensuring reliable data transmission and optimal performance. Server environments demand high reliability, and the FCLGA3647 socket type meets these requirements.
Support for Advanced Features
The FCLGA3647 socket type offers support for advanced server features such as multiple processors, high-speed memory modules, and extensive I/O capabilities. This enables users to build powerful server systems that can handle demanding workloads, such as virtualization, cloud computing, and database management.
Efficient Cooling Solutions
The FCLGA3647 socket type allows for efficient cooling solutions to be implemented. Servers generate significant heat due to their high-performance nature, and the FCLGA3647 socket type ensures proper heat dissipation. This helps to maintain optimal operating temperatures, preventing thermal throttling and ensuring reliable performance.
Long-Term Investment
Choosing a processor with the FCLGA3647 socket type ensures long-term investment in server infrastructure. The widespread adoption of this socket type guarantees the availability of compatible motherboards, cooling solutions, and other server components for years to come. This allows for seamless upgrades and expansions without the need to replace the entire system.
Nm Technology: 14NM
Improved Power Efficiency
The 14nm (nanometer) technology used in the Intel Xeon Silver 4114 Processor allows for improved power efficiency. The smaller transistor size enables more transistors to be packed into a smaller space, reducing power consumption and heat generation. This results in lower energy costs and improved overall system efficiency.
Enhanced Performance per Watt
The 14nm technology also improves performance per watt, meaning that the processor can deliver higher performance while consuming less power. This is particularly important in data centers and server environments where energy efficiency is a critical factor. The Intel Xeon Silver 4114 Processor's 14nm technology helps to maximize performance while minimizing power consumption.
Reduced Heat Generation
The smaller transistor size of 14nm technology leads to reduced heat generation compared to larger process technologies. This is beneficial for maintaining optimal operating temperatures, especially in compact or densely populated server environments where heat dissipation can be a challenge. The Intel Xeon Silver 4114 Processor's 14nm technology helps to minimize heat-related issues and maintain stable performance.
Increased Transistor Density
The 14nm technology allows for a higher transistor density, meaning that more transistors can be integrated into the same physical space. This results in increased processing power and performance capabilities. The Intel Xeon Silver 4114 Processor's 14nm technology enables it to handle demanding workloads and deliver superior performance compared to processors with larger transistor sizes.
Future-Proofing
The adoption of 14nm technology ensures future-proofing to some extent. As semiconductor technology progresses, smaller transistor sizes become more common, and applications and software are optimized for these advancements. By choosing a processor with 14nm technology, users can ensure compatibility with future software updates and technologies without the need for immediate upgrades.
Power Consumption: 85W
Lower Energy Costs
The Intel Xeon Silver 4114 Processor's power consumption of 85W ensures lower energy costs compared to processors with higher power requirements. This is particularly important in server environments where multiple processors are deployed, as energy costs can quickly add up. The lower power consumption of the Intel Xeon Silver 4114 Processor helps to minimize operational expenses.
Reduced Cooling Requirements
The lower power consumption results in reduced heat generation, which in turn reduces the cooling requirements for the system. Cooling solutions such as fans and heatsinks consume energy themselves, so a lower power consumption processor like the Intel Xeon Silver 4114 Processor helps to optimize overall energy efficiency by reducing the cooling load.
Eco-Friendly Computing
Lower power consumption contributes to eco-friendly computing practices. By choosing a processor with lower power requirements, users can reduce their carbon footprint and contribute to sustainability efforts. This is particularly relevant in today's environmentally conscious world, where organizations are increasingly focused on reducing their energy consumption and environmental impact.
Improved Thermal Management
The 85W power consumption of the Intel Xeon Silver 4114 Processor allows for efficient thermal management. The heat generated by the processor can be dissipated more effectively, ensuring stable operation and preventing thermal throttling. This is essential for maintaining optimal performance and system reliability, particularly in high-demand server environments.
Reliable 24/7 Operation
The Intel Xeon Silver 4114 Processor's power consumption of 85W is ideal for 24/7 operation, common in server environments. The lower power requirements contribute to system stability and reliability by reducing the strain on power supplies and other components. This ensures uninterrupted operation and minimizes the risk of unexpected downtime.