Intel Xeon Platinum 8170 26-Core SR37H 2.1GHz Processor
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Overview of the Product
Server Processor Specifications
- Type: Server Processor
- Manufacturer: INTEL Corporation
- Model Number: Platinum 8170
- Part Number: SR37H
Technical Features
Processor Architecture
- Core Count: 26-core
- Base Clock Speed: 2.10 GHz
- Turbo Boost Frequency: Up to 3.70 GHz
- Ultra Path Interconnect (UPI) Speed: 10.4 GT/s
- Number of UPI Links: 3
- Instruction Set: 64-bit
- Supported Instruction Set Extensions:
- INTEL® SSE4.2
- INTEL® AVX
- INTEL® AVX2
- INTEL® AVX-512
Cache Memory
- L3 Cache Size: 35.75 MB
Manufacturing Process
- Process Technology: 14nm
- Maximum Thermal Design Power (TDP): 165W
- Compatible Processor Socket: FCLGA3647
Memory Capabilities
- Maximum Memory Size: Up to 768 GB (varies by memory type)
- Memory Types Supported: DDR4-2666
- Maximum Memory Speed: 2.67 GHz
- Maximum Number of Memory Channels: 6
- ECC Memory Support: Yes
Core Count: 26
Improved Multitasking and Performance
The Intel Xeon Platinum 8170 Processor boasts an impressive core count of 26, making it an excellent choice for users who require high-performance computing capabilities. With more cores, this processor can handle multiple tasks simultaneously, allowing for improved multitasking and increased overall performance. Whether you're running complex simulations, rendering graphics, or processing large datasets, the 26 cores of the Xeon Platinum 8170 ensure that you can tackle even the most demanding workloads with ease.
Enhanced Parallel Processing
Parallel processing is a key feature of modern computing systems, enabling faster data processing and analysis. The 26 cores of the Xeon Platinum 8170 Processor provide ample resources for parallel processing, allowing for efficient execution of parallelizable tasks. This is particularly beneficial for users working with applications that can take advantage of multi-threading, such as video editing software, scientific simulations, and data analytics tools. By distributing workloads across multiple cores, the Xeon Platinum 8170 significantly reduces processing times and enhances overall system performance.
Scalability and Future-Proofing
As technology continues to advance, software applications are becoming increasingly optimized for parallel processing and multi-threading. By investing in a processor with a high core count like the Xeon Platinum 8170, users can future-proof their systems and ensure compatibility with upcoming software updates and advancements. With 26 cores at your disposal, you'll be well-equipped to handle the demands of tomorrow's resource-intensive applications without the need for immediate hardware upgrades.
Efficient Virtualization
In virtualized environments, where multiple virtual machines run simultaneously on a single physical server, having a high core count is essential for efficient resource allocation and workload management. The 26 cores of the Xeon Platinum 8170 enable better virtual machine consolidation, allowing you to run more workloads on a single server without sacrificing performance. This not only reduces hardware costs but also simplifies management and improves overall efficiency.
Optimized for Server Workloads
The Xeon Platinum 8170 Processor is designed with server workloads in mind. With 26 cores, this processor excels in handling tasks such as web serving, database management, and cloud computing. These workloads often require high processing power and the ability to handle multiple concurrent requests, making the Xeon Platinum 8170 an ideal choice for businesses and organizations that rely on robust server infrastructure.
Improved Gaming Performance
While the Xeon Platinum 8170 is primarily targeted at professional users and server applications, its high core count can also benefit gamers. Some modern games are optimized to take advantage of multiple cores, allowing for improved performance and smoother gameplay. With 26 cores, the Xeon Platinum 8170 can provide gamers with a competitive edge by delivering exceptional processing power and reducing bottlenecks that may occur with lower core count processors.
Base Clock Speed: 2.1GHz
Efficient Task Execution
The base clock speed of 2.1GHz ensures that the Intel Xeon Platinum 8170 Processor can efficiently execute tasks at a consistent rate. The base clock speed represents the minimum frequency at which the processor operates under normal conditions. With a higher base clock speed, the processor can complete instructions faster, resulting in improved overall performance.
Responsive System Performance
A higher base clock speed translates to a more responsive system. Whether you're launching applications, opening files, or navigating through your operating system, the Xeon Platinum 8170's 2.1GHz base clock speed ensures that your actions are executed swiftly. This is particularly important for users who rely on their computers for productivity tasks, as a responsive system can significantly enhance workflow efficiency.
Boosting Capabilities
While the base clock speed provides a reliable and consistent performance baseline, the Xeon Platinum 8170 Processor also features turbo boost technology. This technology allows the processor to dynamically increase its clock speed beyond the base frequency when additional processing power is required. With turbo boost, the Xeon Platinum 8170 can reach higher clock speeds up to 3.7GHz, further enhancing its performance capabilities.
Seamless Multitasking
With a base clock speed of 2.1GHz, the Xeon Platinum 8170 Processor excels in multitasking scenarios. Whether you're running multiple applications simultaneously or performing resource-intensive tasks, the higher base clock speed ensures that each task receives an adequate amount of processing power. This leads to smoother multitasking experiences and reduces the likelihood of performance slowdowns or bottlenecks.
Optimized for Single-Threaded Workloads
While multi-core processors excel in parallel processing scenarios, single-threaded workloads can benefit from a higher base clock speed. Some applications and tasks rely heavily on single-threaded performance, meaning they can only utilize a single core at a time. Examples include certain gaming scenarios, legacy software, and specific engineering applications. The Xeon Platinum 8170's 2.1GHz base clock speed ensures that these single-threaded workloads receive optimal performance without sacrificing overall multi-core capabilities.
Enhanced Real-Time Processing
In real-time applications where immediate data processing is critical, such as live streaming, audio processing, or video editing, a higher base clock speed is essential. The Xeon Platinum 8170's 2.1GHz base clock speed enables faster real-time data processing, reducing latency and ensuring smooth operation. Whether you're streaming content or working with time-sensitive data, the Xeon Platinum 8170 can handle the demands of real-time processing with ease.
L3 Cache: 35.75MB
Improved Data Access and Speed
The Intel Xeon Platinum 8170 Processor features a generous L3 cache size of 35.75MB. The L3 cache acts as a high-speed memory buffer between the processor cores and the main memory. By storing frequently accessed data closer to the CPU, the L3 cache enables faster data retrieval, reducing memory latency and improving overall system performance.
Efficient Workload Execution
A larger L3 cache size allows the processor to hold more data for immediate access. This is particularly beneficial for workloads that exhibit high data locality, where data accessed in one instruction is likely to be accessed again in the near future. With a 35.75MB L3 cache, the Xeon Platinum 8170 can efficiently execute such workloads by minimizing the time spent waiting for data to be fetched from main memory.
Enhanced Multithreaded Performance
In multithreaded scenarios, where multiple threads are executing simultaneously, a larger L3 cache can have a significant impact on performance. As each thread may access different data sets, having a larger L3 cache reduces the likelihood of cache thrashing, where frequently used data is evicted from the cache to make room for new data. With a 35.75MB L3 cache, the Xeon Platinum 8170 can accommodate a larger working set, resulting in improved multithreaded performance.
Optimized Virtualization Performance
Virtualized environments often involve running multiple virtual machines simultaneously, each with its own memory requirements. The Xeon Platinum 8170's 35.75MB L3 cache ensures that each virtual machine has enough cache space to store frequently accessed data, reducing the need for frequent memory accesses and improving overall virtualization performance. This is particularly important in scenarios where virtual machines are frequently migrated or where memory resource contention is common.
Reduced Memory Bottlenecks
Memory latency can be a significant bottleneck in system performance, especially when dealing with large datasets or memory-intensive applications. The Xeon Platinum 8170's 35.75MB L3 cache helps alleviate this bottleneck by providing a faster and more efficient method of accessing frequently used data. By reducing the reliance on main memory, the processor can perform computations more quickly and efficiently, resulting in improved overall system responsiveness.
Improved Gaming Performance
Gaming performance can benefit from a larger L3 cache size, especially in open-world games or those with large and complex environments. The Xeon Platinum 8170's 35.75MB L3 cache allows for faster loading times, reduced texture pop-in, and smoother gameplay by providing quick access to frequently accessed game assets. This results in an enhanced gaming experience with reduced stuttering and improved overall performance.
Upi Speed: 10.4GT/S
Faster Inter-Processor Communication
The UPI (Ultra Path Interconnect) speed of the Intel Xeon Platinum 8170 Processor plays a crucial role in enabling fast and efficient communication between multiple processors in a system. With an UPI speed of 10.4GT/S, this processor ensures rapid data transfer and synchronization between processors, improving overall system performance and scalability.
Improved Scalability
For users requiring a high-performance computing system with multiple processors, such as servers or workstations, a faster UPI speed is essential. The 10.4GT/S UPI speed of the Xeon Platinum 8170 allows for seamless scalability by enabling efficient communication between processors. This means that as you add more processors to your system, the UPI speed ensures that the increased computational power can be effectively utilized without bottlenecks or communication delays.
Enhanced Workload Distribution
In multi-processor systems, workload distribution across processors is crucial for optimal performance. The Xeon Platinum 8170's 10.4GT/S UPI speed ensures that tasks can be efficiently distributed among processors, reducing the likelihood of processor imbalances and ensuring that each processor receives an appropriate share of the workload. This leads to improved overall system performance and prevents individual processors from becoming overwhelmed by excessive workloads.
Faster Data Sharing in Virtualized Environments
In virtualized environments where multiple virtual machines are running on a single physical server, efficient data sharing between processors is essential. The Xeon Platinum 8170's 10.4GT/S UPI speed enables faster data transfers between processors, improving overall virtual machine performance and reducing latency. This is particularly important in scenarios where virtual machines need to communicate with each other or share resources, ensuring a smooth and responsive virtualized environment.
Improved Parallel Processing Performance
Parallel processing relies heavily on efficient inter-processor communication for distributing workloads and synchronizing data. With an UPI speed of 10.4GT/S, the Xeon Platinum 8170 facilitates fast data transfers between processors, allowing for improved parallel processing performance. This is especially beneficial for users working with highly parallelizable tasks, such as scientific simulations, rendering, or data analytics, where the ability to distribute workloads effectively can significantly reduce processing times.
Seamless Cluster Computing
In cluster computing environments, where multiple computers work together to solve complex problems or handle large-scale computations, a faster UPI speed is crucial for efficient communication between nodes. The Xeon Platinum 8170's 10.4GT/S UPI speed ensures that data can be quickly exchanged between nodes, minimizing communication overhead and enabling seamless cluster computing. Whether you're running simulations, conducting research, or performing data analysis, the Xeon Platinum 8170 provides the necessary interconnectivity for high-performance cluster computing.
Socket: FCLGA3647
Compatibility and Upgradeability
The FCLGA3647 socket of the Intel Xeon Platinum 8170 Processor ensures compatibility with compatible motherboards and allows for future upgradeability. The socket is specifically designed for high-performance processors and provides a secure and efficient connection between the processor and the motherboard. With the FCLGA3647 socket, users can easily upgrade their systems by replacing the processor without requiring a motherboard change.
Support for Dual-Socket Configurations
The FCLGA3647 socket supports dual-socket configurations, allowing users to install two Xeon Platinum 8170 processors in a single system. This feature is particularly valuable for users who require extreme processing power or are running applications that can take advantage of distributed computing. Dual-socket configurations enable enhanced multitasking capabilities and significantly increase computational performance.
Server-Grade Reliability
The FCLGA3647 socket is commonly found in server-grade motherboards, ensuring the highest level of reliability and stability. Server environments demand robust hardware that can operate continuously under heavy workloads, and the FCLGA3647 socket delivers on these requirements. Whether you're building a powerful workstation or a server for mission-critical applications, the FCLGA3647 socket provides the necessary foundation for a reliable and stable system.
Ease of Maintenance
The FCLGA3647 socket's design simplifies processor installation and removal, making maintenance tasks easier and more efficient. This is particularly beneficial for IT professionals who need to regularly upgrade or replace processors in large-scale deployments. With the FCLGA3647 socket, swapping out a processor is a straightforward process that minimizes downtime and ensures uninterrupted operation.
Scalability for Growing Workloads
The ability to upgrade to dual-socket configurations provides scalability for growing workloads. As your computational needs increase, adding a second Xeon Platinum 8170 processor to your system allows for additional processing power without requiring a complete system overhaul. The FCLGA3647 socket's support for dual-socket configurations ensures that your system can scale with your evolving requirements, providing a cost-effective solution for future expansion.
Support for Advanced Features
The FCLGA3647 socket is compatible with motherboards that support advanced features such as ECC (Error-Correcting Code) memory, multiple PCI Express lanes, and robust cooling solutions. These features are essential in high-performance computing environments where data integrity, expansion capabilities, and thermal management are critical. The FCLGA3647 socket enables users to take full advantage of these advanced features, ensuring optimal system performance and reliability.
Manufacturing Technology: 14NM
Improved Power Efficiency
The 14nm (nanometer) manufacturing technology used in the Intel Xeon Platinum 8170 Processor offers improved power efficiency compared to previous generations. The smaller transistor size enables higher transistor density, allowing for more processing power within the same thermal and power envelope. This results in a more energy-efficient processor that delivers higher performance while consuming less power.
Reduced Heat Generation
The 14nm manufacturing technology not only improves power efficiency but also reduces heat generation. As transistors become smaller, they require less power to operate and produce less heat as a byproduct. This is particularly important in high-performance computing environments where managing heat dissipation is crucial for maintaining system stability and preventing thermal throttling. The Xeon Platinum 8170's 14nm manufacturing technology ensures that you can achieve high performance without sacrificing system reliability.
Higher Transistor Density
The 14nm manufacturing process allows for higher transistor density, meaning that more transistors can be packed onto the same silicon die. This results in processors with a greater number of cores, larger caches, and improved overall performance. The Xeon Platinum 8170 benefits from this higher transistor density, providing users with a powerful processor that can handle demanding workloads and resource-intensive applications.
Improved Performance per Watt
The combination of improved power efficiency and reduced heat generation provided by the 14nm manufacturing technology results in improved performance per watt. Performance per watt measures the amount of computational output a processor can deliver for each unit of power consumed. With the Xeon Platinum 8170's 14nm manufacturing technology, you can achieve higher performance levels without exceeding power constraints, making it an ideal choice for users who prioritize energy efficiency.
Future-Proofing
Investing in a processor with a modern manufacturing technology like 14nm ensures future-proofing. As technology continues to advance, software applications and operating systems are optimized for newer processor architectures. The Xeon Platinum 8170's 14nm manufacturing technology ensures compatibility with