Intel Xeon Silver 4316 Processor BX806894316 2.30GHz 30mb Smart Cache
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Product Overview of Xeon Silver 4316
The Server Processor identified by the part number BX806894316 is a high-performance unit designed by INTEL Corporation.
Model and Manufacturer Details
- Manufacturer: INTEL Corporation
- Model Number: Silver 4316
- Part Number: BX806894316
Technical Specifications
- Core Count: 20-core
- Base Clock Speed: 2.30 GHz
- Turbo Frequency: Up to 3.40 GHz
- Instruction Set: 64-bit
Instruction Set Extensions
- INTEL® SSE4.2
- INTEL® AVX
- INTEL® AVX2
- INTEL® AVX-512
Cache and Thermal Details
Smart Cache: 30 MB
Thermal Specifications
Lithography: 10nm
Maximum Thermal Design Power (TDP): 150W
Memory Support
- Maximum Memory Capacity: Up to 6 TB (dependent on memory type)
- Memory Types: DDR4-2667
- Maximum Memory Speed: 2.6 GHz
- Number of Memory Channels: 8
- ECC Memory Support: Yes
Processor Socket Compatibility
Socket Type: FCLGA4189
Cores
The Intel Xeon Silver 4316 Processor is equipped with an impressive 20 cores. Cores are essential components of a processor as they determine its multitasking capabilities and overall performance. With 20 cores, this processor is designed to handle demanding tasks and workloads efficiently.
Increased Processing Power
Having 20 cores means that the Intel Xeon Silver 4316 Processor can simultaneously execute multiple tasks. This significantly improves processing power, allowing for faster and more efficient performance. Whether you're running complex simulations, handling large datasets, or running multiple applications simultaneously, the abundance of cores ensures smooth and efficient processing.
Enhanced Multitasking
Multi-threading is a feature that allows each core to handle multiple threads simultaneously. With 20 cores, the Intel Xeon Silver 4316 Processor can efficiently handle numerous threads, enabling seamless multitasking. This is particularly beneficial for professionals who work with resource-intensive applications and need to switch between tasks quickly without any lag or slowdown.
Optimized Workloads
The abundance of cores in the Intel Xeon Silver 4316 Processor allows for workload optimization. Applications that are designed to utilize multiple cores can distribute their tasks across the available cores, ensuring better efficiency and performance. This is especially important for professionals in fields such as scientific research, engineering, and video editing, where processing large amounts of data is common.
Parallel Processing
Parallel processing is another advantage of having multiple cores. It involves dividing a task into smaller subtasks and executing them simultaneously across different cores. This technique greatly reduces the time required to complete complex computations and enables faster data analysis. The Intel Xeon Silver 4316 Processor's 20 cores make it an excellent choice for parallel processing-intensive applications.
Improved Virtualization
Virtualization technology allows users to create multiple virtual machines on a single physical server. Each virtual machine requires dedicated processing power, and the more cores a processor has, the more virtual machines it can support simultaneously. With 20 cores, the Intel Xeon Silver 4316 Processor can handle a significant number of virtual machines, making it ideal for virtualization environments.
Scalability and Future-Proofing
Having 20 cores provides scalability and future-proofing for your system. As software and applications continue to become more demanding, having a higher core count will ensure that your system remains capable of handling future workloads. Investing in a processor with ample cores like the Intel Xeon Silver 4316 Processor ensures that your system is prepared for future advancements in technology.
Conclusion
In summary, the Intel Xeon Silver 4316 Processor's 20 cores offer exceptional processing power, enhanced multitasking capabilities, optimized workloads, and improved virtualization support. Whether you're a professional working with resource-intensive applications or a business running virtualized environments, the 20 cores of this processor provide the performance and scalability you need to tackle even the most demanding tasks.
Base Clock Speed
The Intel Xeon Silver 4316 Processor features a base clock speed of 2.30GHz. The base clock speed is an essential specification of a processor as it determines its overall performance and responsiveness. A higher base clock speed means faster processing and better performance for users.
Improved Responsiveness
The base clock speed directly affects how quickly the processor can execute instructions and respond to user commands. With a base clock speed of 2.30GHz, the Intel Xeon Silver 4316 Processor ensures that tasks are executed swiftly and efficiently. This is particularly beneficial for applications that require real-time responsiveness, such as gaming or live streaming.
Faster Single-Threaded Performance
Single-threaded applications rely on a single core for processing. In such cases, a higher base clock speed translates to faster performance. The 2.30GHz base clock speed of the Intel Xeon Silver 4316 Processor ensures that single-threaded tasks are executed quickly, resulting in smoother performance and reduced latency.
Boosting Multi-Threaded Performance
While base clock speed primarily affects single-threaded tasks, it also indirectly impacts multi-threaded performance. Multi-threaded applications make use of multiple cores and threads, and a higher base clock speed helps ensure that each core can execute their respective threads efficiently. With a base clock speed of 2.30GHz, the Intel Xeon Silver 4316 Processor excels in both single-threaded and multi-threaded workloads.
Efficient Resource Allocation
The base clock speed plays a crucial role in determining how resources are allocated within a system. A higher base clock speed allows the processor to allocate resources more efficiently, ensuring that tasks are executed without any bottlenecks. This is important for professionals working with resource-intensive applications and systems that require consistent and reliable performance.
Overclocking Potential
For users who seek even more performance, the base clock speed provides a foundation for overclocking. Overclocking involves increasing the clock speed of the processor beyond its default specifications to achieve higher performance. While overclocking can provide a significant performance boost, it should be done with caution and proper cooling solutions to avoid damage to the processor.
Power Efficiency
While a higher base clock speed may imply increased power consumption, modern processors like the Intel Xeon Silver 4316 Processor are designed to strike a balance between performance and power efficiency. The 2.30GHz base clock speed ensures optimal performance while minimizing energy consumption, making it an excellent choice for both performance-oriented and energy-conscious users.
Conclusion
The Intel Xeon Silver 4316 Processor's 2.30GHz base clock speed offers improved responsiveness, faster single-threaded and multi-threaded performance, efficient resource allocation, overclocking potential, and power efficiency. Whether you're a gamer, content creator, or professional user, the 2.30GHz base clock speed ensures that your tasks are executed swiftly and efficiently.
Smart Cache
The Intel Xeon Silver 4316 Processor boasts a generous smart cache size of 30MB. Smart cache is an integral part of a processor's memory hierarchy and plays a vital role in enhancing performance by reducing memory access latency and improving data transfer speeds.
Reduced Memory Latency
Smart cache acts as a buffer between the processor cores and the main memory. With a larger cache size of 30MB, the Intel Xeon Silver 4316 Processor can store frequently accessed data closer to the cores, reducing the need to fetch data from the main memory. This results in reduced memory latency and faster access to critical data, significantly improving overall system performance.
Improved Data Transfer Speeds
The larger cache size also enhances data transfer speeds within the processor. By storing more data in the cache, the Intel Xeon Silver 4316 Processor reduces the time required to retrieve data for processing. This is particularly beneficial for applications that perform frequent data read and write operations, such as databases or scientific simulations.
Enhanced Multitasking Performance
Smart cache plays a crucial role in multitasking scenarios where multiple threads are executed simultaneously. With a larger cache size, the Intel Xeon Silver 4316 Processor can accommodate more instructions and data from different threads, reducing contention and improving overall multitasking performance. This ensures smoother execution of multiple tasks without experiencing performance bottlenecks.
Optimized Workload Distribution
Smart cache also aids in workload optimization. When multiple cores are executing different threads, the smart cache intelligently distributes the workload across the available cache lines, ensuring efficient utilization of resources. This results in better workload distribution and improved performance for applications that can take advantage of multiple cores.
Reduced Power Consumption
Efficient cache utilization can lead to reduced power consumption. By storing frequently accessed data in the cache, the processor avoids accessing the main memory frequently, which consumes more power. The Intel Xeon Silver 4316 Processor's 30MB smart cache helps minimize memory access and, consequently, reduces power consumption without sacrificing performance.
Improved Virtual Machine Performance
Virtualization environments benefit greatly from a larger cache size. Each virtual machine running on a server requires dedicated resources, and a larger cache allows for better resource allocation and reduced contention among virtual machines. The 30MB smart cache of the Intel Xeon Silver 4316 Processor ensures that virtual machines can access their data efficiently, resulting in improved overall performance.
Conclusion
The Intel Xeon Silver 4316 Processor's 30MB smart cache offers reduced memory latency, improved data transfer speeds, enhanced multitasking performance, optimized workload distribution, reduced power consumption, and improved virtual machine performance. With a larger cache size, this processor ensures that critical data is readily available to the cores, resulting in faster and more efficient processing.
Bus Speed
The Intel Xeon Silver 4316 Processor features an impressive bus speed of 10.4GT/s. Bus speed is a critical specification that determines how quickly data can be transferred between the processor and other system components. A higher bus speed translates to faster data transfer rates and improved overall system performance.
Faster Data Transfer
The bus speed determines how quickly data can be transferred between the processor and other system components, such as the memory or graphics card. With a bus speed of 10.4GT/s, the Intel Xeon Silver 4316 Processor ensures that data is transferred swiftly and efficiently. This is particularly important for applications that require large amounts of data to be processed or transferred, such as video editing or gaming.
Reduced Bottlenecks
A higher bus speed helps reduce bottlenecks within the system. Bottlenecks occur when the bus speed is unable to keep up with the data demands of the processor and other components, resulting in slower performance or system instability. The 10.4GT/s bus speed of the Intel Xeon Silver 4316 Processor ensures that data transfer is not a limiting factor in system performance, allowing for smoother and more efficient operation.
Improved System Responsiveness
Bus speed directly affects system responsiveness by determining how quickly data can be accessed from different components. A higher bus speed ensures that data is readily available to the processor, reducing latency and improving overall system responsiveness. This is particularly beneficial for tasks that require real-time interaction or quick access to data, such as gaming or multimedia applications.
Efficient CPU-GPU Communication
In systems with integrated graphics or dedicated graphics cards, a higher bus speed facilitates efficient communication between the CPU and GPU. Graphics-intensive applications rely heavily on fast data transfer between these components, and a higher bus speed ensures smooth operation and improved performance. The 10.4GT/s bus speed of the Intel Xeon Silver 4316 Processor enables seamless CPU-GPU communication, resulting in enhanced graphics performance.
Accelerated Memory Access
The bus speed also affects memory access speeds. Faster data transfer between the processor and memory results in accelerated memory access, reducing the time required to retrieve data for processing. The 10.4GT/s bus speed of the Intel Xeon Silver 4316 Processor ensures that memory access is not a performance bottleneck, allowing for quicker data retrieval and improved overall system performance.
Future-Proofing
Investing in a processor with a high bus speed provides future-proofing for your system. As technology advances and demands on data transfer rates increase, having a higher bus speed ensures that your system can keep up with future requirements. The 10.4GT/s bus speed of the Intel Xeon Silver 4316 Processor ensures that your system remains capable of handling future advancements in technology.
Conclusion
The Intel Xeon Silver 4316 Processor's 10.4GT/s bus speed offers faster data transfer, reduced bottlenecks, improved system responsiveness, efficient CPU-GPU communication, accelerated memory access, and future-proofing for your system. With a higher bus speed, this processor ensures smooth and efficient operation, even when dealing with demanding tasks or resource-intensive applications.
Nm Technology
The Intel Xeon Silver 4316 Processor is built using 10nm technology, which refers to the size of the transistors on the processor's integrated circuit. The smaller the transistor size, the more transistors can be packed onto the chip, resulting in improved performance, power efficiency, and thermal management.
Increased Transistor Density
The 10nm technology allows for increased transistor density on the processor's integrated circuit. This means that more transistors can be placed on the chip compared to processors built using larger node sizes. The increased transistor density enables better performance by providing more processing power within a smaller footprint.
Better Power Efficiency
Smaller transistors require less power to switch on and off, resulting in improved power efficiency. The 10nm technology used in the Intel Xeon Silver 4316 Processor ensures that each transistor consumes less power, reducing overall power consumption. This is particularly important for users who prioritize energy efficiency or operate systems that require low power consumption.
Improved Thermal Management
Smaller transistors generate less heat during operation, allowing for improved thermal management. The 10nm technology of the Intel Xeon Silver 4316 Processor ensures that heat dissipation is optimized, reducing the risk of overheating and enabling reliable long-term operation. This is especially beneficial for systems that require sustained high performance or operate in environments with limited cooling capabilities.
Higher Clock Speeds
The smaller transistor size enables higher clock speeds, which directly impact the processor's performance. With 10nm technology, the Intel Xeon Silver 4316 Processor can achieve higher clock speeds while maintaining power efficiency. Higher clock speeds result in faster data processing, improved multitasking capabilities, and smoother overall system performance.
Improved Battery Life
For mobile devices or systems running on battery power, the 10nm technology provides improved battery life. The reduced power consumption of smaller transistors allows for longer battery runtime without sacrificing performance. This ensures that users can work or enjoy multimedia content for extended periods without needing to recharge frequently.
Future-Ready Architecture
Investing in a processor built using advanced technology ensures future readiness for upcoming software and applications. As technology progresses, software becomes more optimized for newer architectures. The 10nm technology of the Intel Xeon Silver 4316 Processor ensures compatibility with future advancements, providing users with a system that can handle upcoming software demands.
Conclusion
The Intel Xeon Silver 4316 Processor's 10nm technology offers increased transistor density, better power efficiency, improved thermal management, higher clock speeds, improved battery life, and future-ready architecture. With smaller transistors, this processor provides superior performance, power efficiency, and thermal management, making it an ideal choice for a wide range of applications and user requirements.
Power Consumption
The Intel Xeon Silver 4316 Processor has a power consumption of 150W. Power consumption is an important consideration when choosing a processor, as it directly impacts energy efficiency, heat generation, and overall system performance.
Energy Efficiency
Power consumption directly affects the energy efficiency of a processor. A lower power consumption value indicates that the processor consumes less electricity while delivering the required performance. The Intel Xeon Silver 4316 Processor's 150W power consumption ensures energy-efficient operation, making it suitable for environments where minimizing power usage is a priority.
Reduced Heat Generation
Power consumption correlates with heat generation in a processor. A higher power consumption typically leads to increased heat output. The Intel Xeon Silver 4316 Processor's 150W power consumption ensures that heat generation is kept within manageable levels. This is particularly important for systems that operate in environments with limited cooling or require long-term reliable operation.
Thermal Management
Efficient thermal management is crucial for maintaining system stability and preventing overheating. The 150W power consumption of the Intel Xeon Silver 4316 Processor allows for effective heat dissipation, ensuring that the processor operates within safe temperature limits. Proper thermal management minimizes the risk of system instability and extends the lifespan of the processor.
Sustained Performance
Excessive heat can cause thermal throttling, reducing the processor's performance to prevent damage. By consuming 150W of power, the Intel Xeon Silver 4316 Processor ensures sustained high performance without compromising system stability. This is especially important for tasks that require continuous processing power or run resource-intensive applications for extended periods.
Energy Cost Savings
Lower power consumption translates into reduced energy costs over time.