Intel Xeon Silver 4214R SRG1W 12-Core Processor
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INTEL Server Processor Overview
Manufacturer Details
- Brand: INTEL Corporation
- Part Number: SRG1W
- Model: 4214R
Performance Specifications
Processing Power
- Total Cores: 12-core architecture
- Base Clock Speed: 2.40GHz
- Turbo Boost: Maximum turbo frequency of 3.50GHz
- UPI Speed: 9.6 GT/s
- QPI Links: Supports 2 QPI links
Instruction Set Features
- 64-bit architecture
- Supports INTEL® SSE4.2
- Optimized for INTEL® AVX, AVX2, and AVX-512 instruction sets
Cache and Memory Information
Cache Memory
- Cache Size: 16.5MB for efficient data handling
Memory Specifications
- Maximum Memory Capacity: Up to 1TB (depending on memory type)
- Memory Type: DDR4
- Memory Channels: Up to 6 channels supported
- ECC Memory: Error-correcting code (ECC) memory supported
Additional Technical Details
Fabrication and Power
- Process Technology: 14nm lithography
- Thermal Design Power (TDP): 100W maximum
Socket Compatibility
- Processor Socket: FCLGA3647
Core Count: 12
Benefits and Importance
Enhanced Performance
The Intel Xeon Silver 4214R Processor boasts an impressive core count of 12, making it a powerhouse when it comes to multitasking and handling resource-intensive tasks. With more cores, the processor can handle a higher number of threads simultaneously, resulting in improved performance and faster execution of complex workloads. Whether you're running virtual machines, rendering videos, or performing data analysis, the 12 cores ensure smooth and efficient processing.
Increased Productivity
For professionals and businesses that rely on computing power for their daily operations, the Intel Xeon Silver 4214R Processor's 12-core count can significantly boost productivity. With more cores at their disposal, users can run multiple applications simultaneously without experiencing any lag or slowdown. This means faster data processing, quicker response times, and a seamless multitasking experience. Whether you're editing large multimedia files or running resource-heavy software, the increased core count ensures efficient workflow and minimizes downtime.
Improved Scalability
In today's fast-paced technological landscape, scalability is crucial for businesses to stay competitive. The Intel Xeon Silver 4214R Processor's 12-core count allows for easy scalability as your computing needs grow. With more cores available, you can effortlessly handle increased workloads and accommodate additional users or processes without compromising performance. This scalability ensures that your system remains responsive and efficient even as demands on your resources increase.
Optimized Virtualization
Virtualization has become an essential aspect of modern computing environments. The Intel Xeon Silver 4214R Processor's 12-core count is particularly beneficial for virtualization tasks, enabling you to create multiple virtual machines and allocate dedicated resources to each one. The increased core count ensures that each virtual machine receives sufficient processing power, resulting in improved efficiency and reduced latency. Whether you're running a virtualized server environment or utilizing virtual desktop infrastructure, the 12 cores allow for seamless virtualization operations.
Future-Proofing
Investing in a processor with a high core count, such as the Intel Xeon Silver 4214R, offers future-proofing benefits. As software and applications continue to evolve and become more resource-intensive, having more cores ensures compatibility and optimal performance. By choosing a processor with 12 cores, you are equipping your system with the necessary power to handle upcoming advancements in technology and software demands. This future-proofing aspect saves you from having to upgrade your processor prematurely and provides longevity to your system.
Base Clock Speed: 2.40GHz
Benefits and Importance
Efficient Single-Thread Performance
The base clock speed of the Intel Xeon Silver 4214R Processor is set at an impressive 2.40GHz. This high clock speed allows for efficient single-thread performance, which is crucial for tasks that rely on individual core performance rather than parallel processing. Activities such as gaming, certain software applications, and real-time simulations can greatly benefit from a high base clock speed. The 2.40GHz base clock speed ensures smooth execution of single-threaded tasks, resulting in faster response times and reduced latency.
Quick Startup and Responsiveness
When it comes to everyday computing tasks, the Intel Xeon Silver 4214R Processor's 2.40GHz base clock speed plays a vital role in delivering quick startup times and overall system responsiveness. The higher the base clock speed, the faster your system can boot up and launch applications. This means less waiting time and increased efficiency in executing day-to-day tasks. Whether you're browsing the web, working with office applications, or accessing files, the 2.40GHz base clock speed ensures a smooth and responsive user experience.
Optimized Gaming Performance
For avid gamers, the base clock speed of the Intel Xeon Silver 4214R Processor at 2.40GHz provides a solid foundation for achieving optimal gaming performance. Many games heavily rely on single-threaded performance, and a higher base clock speed translates to better frame rates, reduced input lag, and smoother gameplay. The 2.40GHz base clock speed ensures that your gaming experience is not hindered by slow processing speeds, allowing you to immerse yourself in the virtual world without any performance bottlenecks.
Efficient Power Consumption
While high performance is essential, energy efficiency is equally important in today's environmentally conscious world. The Intel Xeon Silver 4214R Processor's 2.40GHz base clock speed strikes a balance between performance and power consumption. By operating at an optimal clock speed, the processor minimizes unnecessary power usage, resulting in reduced energy costs and a smaller carbon footprint. This efficient power consumption contributes to a greener computing environment without compromising on performance.
Overclocking Potential
For users who wish to push their system's performance even further, the Intel Xeon Silver 4214R Processor's 2.40GHz base clock speed offers overclocking potential. Overclocking refers to increasing the clock speed beyond the manufacturer's specifications to achieve higher performance levels. With a base clock speed of 2.40GHz as a starting point, users can experiment with overclocking techniques to unlock additional processing power. However, it is important to note that overclocking requires proper cooling and may void the processor's warranty.
Bus Speed: 9.60GT/s UPI
Benefits and Importance
High-Speed Data Transfer
The bus speed of the Intel Xeon Silver 4214R Processor is an impressive 9.60GT/s UPI (Ultra Path Interconnect). This high-speed data transfer capability allows for efficient communication between the processor and other components within the system, such as memory modules and peripherals. With a faster bus speed, data can be exchanged at a rapid rate, resulting in reduced latency and improved overall system performance. Whether you're transferring large files, accessing memory-intensive applications, or working with high-resolution media, the 9.60GT/s UPI ensures smooth data flow.
Enhanced Multi-Processor Scalability
In scenarios where multiple processors are utilized in a system, the bus speed becomes crucial for enabling efficient communication between these processors. The Intel Xeon Silver 4214R Processor's 9.60GT/s UPI ensures enhanced multi-processor scalability by allowing for fast interconnectivity and data exchange between the processors. This scalability is particularly beneficial for server environments or high-performance computing clusters where multiple processors work together to handle complex workloads. The high bus speed ensures seamless coordination and efficient utilization of resources.
Improved System Responsiveness
The 9.60GT/s UPI bus speed of the Intel Xeon Silver 4214R Processor contributes to improved system responsiveness. When your system's components can communicate quickly and efficiently, tasks are executed with minimal delay, resulting in a more responsive overall experience. Whether you're launching applications, accessing data from storage devices, or interacting with peripherals, the high bus speed ensures that your commands are processed swiftly, eliminating any perceptible lag or sluggishness.
Reduced Bottlenecks in Data-Intensive Workloads
Data-intensive workloads, such as scientific simulations, financial modeling, or big data analytics, often involve processing vast amounts of information. The 9.60GT/s UPI bus speed of the Intel Xeon Silver 4214R Processor plays a crucial role in reducing bottlenecks during these workloads. With faster data transfer rates, the processor can efficiently access and process the required information, minimizing the time spent waiting for data to be transferred. This translates to faster completion times and improved productivity in data-centric tasks.
Seamless Memory Performance
Memory performance is vital for overall system efficiency, and the bus speed has a direct impact on memory throughput. The Intel Xeon Silver 4214R Processor's 9.60GT/s UPI bus speed ensures seamless memory performance by facilitating quick access to memory modules. Whether you're working with large datasets or running memory-intensive applications, the high bus speed ensures that data is fetched from memory and processed without any significant delays. This results in improved application responsiveness and smoother multitasking capabilities.
Cache Size: 16.5MB L3
Benefits and Importance
Faster Data Access
The Intel Xeon Silver 4214R Processor boasts a generous cache size of 16.5MB L3 (level 3). Cache memory acts as a buffer between the processor and main memory, storing frequently accessed data for quick retrieval. With a larger cache size, the processor can hold more data closer to itself, reducing the time required to access information from main memory. This results in faster data access speeds and improved overall system performance. Whether you're loading applications, accessing files, or performing calculations, the 16.5MB L3 cache ensures swift data retrieval.
Improved Instruction Execution
The cache size of the Intel Xeon Silver 4214R Processor significantly impacts instruction execution efficiency. Instructions are the fundamental building blocks of software and determine how tasks are performed. A larger cache size allows for more instructions to be stored in the cache, reducing the need to retrieve them from main memory repeatedly. This leads to improved instruction execution, reduced latency, and faster processing speeds. Whether you're running complex algorithms or executing intricate software routines, the 16.5MB L3 cache ensures smooth and efficient instruction execution.
Enhanced Multitasking Performance
Multitasking involves running multiple applications simultaneously, and efficient caching plays a vital role in multitasking performance. The Intel Xeon Silver 4214R Processor's 16.5MB L3 cache enables seamless multitasking by providing ample space to store frequently accessed data from different applications. With more data available in the cache, the processor can quickly switch between tasks without needing to fetch data from main memory every time. This results in smoother transitions between applications, reduced lag, and an overall improved multitasking experience.
Optimal Virtualization Performance
Virtualization environments require efficient memory management to ensure smooth operation of virtual machines. The 16.5MB L3 cache of the Intel Xeon Silver 4214R Processor plays a crucial role in optimizing virtualization performance. By storing frequently accessed data in the cache, the processor can minimize memory access latency for virtual machines, resulting in improved responsiveness and reduced overhead. Whether you're running a virtualized server or creating virtual desktops, the generous cache size ensures optimal performance and seamless virtualization operations.
Reduced Memory Bottlenecks
Memory bottlenecks can occur when the processor needs to frequently access data from main memory due to limited cache space. The 16.5MB L3 cache size of the Intel Xeon Silver 4214R Processor helps alleviate these bottlenecks by providing a larger storage area for frequently accessed data. With more data available in the cache, the processor can retrieve information quickly, reducing the frequency of memory access requests. This results in smoother data flow, improved system responsiveness, and reduced performance bottlenecks in memory-intensive tasks.
Socket Type: FCLGA3647
Benefits and Importance
Compatibility and Upgradability
The socket type of a processor determines its physical compatibility with the motherboard. The Intel Xeon Silver 4214R Processor utilizes the FCLGA3647 socket type, which is widely supported by various server-grade motherboards. By choosing a processor with a popular and well-supported socket type, users can ensure compatibility with a wide range of motherboards available in the market. Additionally, the FCLGA3647 socket type allows for future upgradability, providing flexibility to adapt to changing computing needs without having to replace the entire system.
Robust Server Performance
The Intel Xeon Silver 4214R Processor's FCLGA3647 socket type is specifically designed for server-grade applications. The robust nature of this socket type ensures stable and reliable performance in demanding server environments. Whether you're running data-intensive applications, hosting virtual machines, or managing a large-scale database, the FCLGA3647 socket type guarantees efficient and uninterrupted server performance. This makes the Intel Xeon Silver 4214R Processor an ideal choice for businesses that require reliable computing power for their critical operations.
Advanced Features and Technologies
The FCLGA3647 socket type supports various advanced features and technologies that enhance system capabilities. These features include support for high-speed memory modules, multiple PCIe lanes for expansion cards, and advanced power management options. By choosing a processor with the FCLGA3647 socket type, users can take full advantage of these advanced features and technologies, resulting in improved system performance, enhanced connectivity, and increased power efficiency. This ensures that your system remains competitive and up to date with the latest technological advancements.
Scalability and Flexibility
The FCLGA3647 socket type offers scalability and flexibility, allowing users to configure their systems according to their specific requirements. Whether you need a single-processor configuration or a multi-processor setup, the FCLGA3647 socket type supports both options. This scalability ensures that your system can grow alongside your computing needs without any architectural limitations. Additionally, the flexibility of the FCLGA3647 socket type allows for easy integration of additional components and expansion cards, providing customization options to tailor your system to your exact specifications.
Efficient Thermal Management
Thermal management is crucial for maintaining optimal performance and longevity of a processor. The FCLGA3647 socket type incorporates features that aid in efficient thermal dissipation. These features include a robust heatsink mounting mechanism and support for advanced cooling solutions. By utilizing the FCLGA3647 socket type, users can ensure effective heat dissipation, preventing overheating and maintaining stable processor temperatures. This efficient thermal management contributes to improved system reliability and longevity, minimizing the risk of performance degradation or hardware failures due to excessive heat.