IBM Processor Xeon Gold 8-core 3.0GHz 11mb 115w 14nm 01PE885.
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Product Overview of IBM Xeon Gold 5217 8-Core Processor
Essential Details
- Manufacturer: IBM
- Part Number: 01PE885
- Model: Gold 5217
- Type: Server Processor
Processor Specifications
- Core Count: 8-core
- Base Clock Speed: 3.0 GHz
- Max Turbo Boost Frequency: 3.70 GHz
- Number of UPI Links: 2
- Architecture: 64-bit
- Supported Instruction Set Extensions:
- Intel® SSE4.2
- Intel® AVX
- Intel® AVX2
- Intel® AVX-512
Cache Memory Information
- Smart Cache Size: 11 MB
Manufacturing Technology
- Process Technology: 14 nm
- Maximum Thermal Design Power (TDP): 115 W
- Compatible Socket: FCLGA3647
Memory Details
- Maximum Supported Memory Size: 1 TB (varies with memory type)
- Supported Memory Types: DDR4-2667
- Maximum Memory Speed: 2.67 GHz
- Maximum Number of Memory Channels: 6
- ECC Memory Compatibility: Yes
Cores
Introduction
The IBM Xeon Gold 5217 Processor is equipped with an impressive 8 cores, making it an ideal choice for users who require high-performance computing power. Cores play a crucial role in determining the processor's ability to handle multiple tasks simultaneously. In this section, we will explore the benefits and importance of the 8 cores featured in this processor.
Increased Multitasking
With 8 cores at their disposal, users can experience exceptional multitasking capabilities. Each core is capable of executing instructions independently, allowing for parallel processing of tasks. This means that users can run resource-intensive applications, such as video editing software or complex simulations, without experiencing significant slowdowns or lag.
Efficient Task Distribution
The multiple cores in the IBM Xeon Gold 5217 Processor enable efficient task distribution. When multiple applications are running simultaneously, each core can be assigned a specific task, ensuring that the workload is evenly distributed. This results in smoother overall system performance and prevents bottlenecks that could occur when a single core handles all the tasks.
Enhanced Productivity
For professionals who rely on their computers for demanding tasks, such as graphic design or data analysis, the 8 cores in this processor can significantly enhance productivity. Users can run complex calculations, render high-resolution images, or compile code faster than ever before. The increased processing power provided by the multiple cores allows for quicker completion of tasks, ultimately saving valuable time.
Gaming Performance
Gamers can also benefit from the 8 cores offered by the IBM Xeon Gold 5217 Processor. Many modern games are designed to take advantage of multiple cores, allowing for more immersive gameplay and smoother frame rates. With 8 cores, gamers can enjoy a seamless gaming experience without worrying about performance hiccups during intense gaming sessions.
Overclocking Potential
Overclocking enthusiasts will appreciate the 8 cores in this processor as it provides ample headroom for pushing the limits of performance. Overclocking allows users to increase the clock speed of the cores beyond their default settings, resulting in even higher processing power. With 8 cores at their disposal, users have more flexibility to explore the full potential of their system and achieve unmatched levels of performance.
Future-Proofing
Investing in a processor with 8 cores ensures future-proofing to a certain extent. As software and applications continue to become more demanding, having more cores can help ensure that your system remains capable of handling future workloads. This means that users can enjoy a high-performance computing experience for years to come without the need for frequent upgrades.
Clock Speed
Introduction
The clock speed is a crucial specification to consider when evaluating the performance of a processor. In the case of the IBM Xeon Gold 5217 Processor, it boasts a clock speed of 3.0GHz. In this section, we will delve into the benefits and importance of this feature for users.
Speed and Responsiveness
The 3.0GHz clock speed of the IBM Xeon Gold 5217 Processor ensures rapid execution of instructions and snappy system responsiveness. A higher clock speed means that each core can process more instructions per second, resulting in faster overall performance. Users will experience reduced waiting times when launching applications, loading files, or performing any tasks that require quick response times.
Smooth Multitasking
The high clock speed allows for seamless multitasking. When running multiple applications simultaneously, each core can quickly switch between tasks, ensuring smooth transitions and minimizing any noticeable slowdowns. This is particularly beneficial for users who often work with resource-intensive software or engage in multitasking scenarios where swift task switching is essential.
Optimized Single-Thread Performance
Many applications, including gaming and certain productivity software, rely heavily on single-thread performance. The clock speed plays a vital role in determining the performance of these applications. With a clock speed of 3.0GHz, the IBM Xeon Gold 5217 Processor excels at handling single-threaded tasks, resulting in faster execution and improved user experience.
Real-Time Applications
Real-time applications, such as video conferencing or audio processing software, require quick data processing to ensure seamless interaction. The 3.0GHz clock speed of this processor allows for efficient real-time data processing, reducing latency and ensuring smooth communication. Users can enjoy uninterrupted video calls, high-quality audio processing, and real-time data analysis without any noticeable delays.
Efficient Virtualization
Virtualization is becoming increasingly common in various industries, enabling users to run multiple operating systems or applications simultaneously. The high clock speed of the IBM Xeon Gold 5217 Processor ensures efficient virtualization by allowing for rapid context switching between virtual machines. This translates into smoother virtualization performance, enabling users to seamlessly switch between different operating systems or run resource-intensive virtualized applications without experiencing significant slowdowns.
Power Efficiency
Despite the impressive clock speed of 3.0GHz, the IBM Xeon Gold 5217 Processor maintains excellent power efficiency. This is achieved through advanced power management technologies that dynamically adjust the clock speed based on workload demands. Users can enjoy high-performance computing without sacrificing energy efficiency or incurring exorbitant electricity bills.
Cache
Introduction
The cache plays a crucial role in a processor's performance by providing fast access to frequently used data. The IBM Xeon Gold 5217 Processor features 11MB of cache, ensuring efficient data retrieval and improved overall system responsiveness. In this section, we will explore the benefits and importance of this feature for users.
Reduced Memory Latency
The cache memory acts as a buffer between the processor and the main memory, storing frequently accessed data closer to the cores. With 11MB of cache, the IBM Xeon Gold 5217 Processor can hold a significant amount of data that can be quickly accessed without having to retrieve it from the slower main memory. This reduces memory latency, resulting in faster execution of instructions and improved system responsiveness.
Improved Application Performance
Applications that heavily rely on large datasets, such as database management systems or scientific simulations, can greatly benefit from a larger cache. The 11MB cache in this processor allows for more data to be stored closer to the cores, reducing the need to fetch data from the main memory repeatedly. This leads to improved application performance, faster data processing, and shorter execution times.
Enhanced Gaming Experience
Gamers can also reap the benefits of the 11MB cache in the IBM Xeon Gold 5217 Processor. The cache stores frequently accessed game assets, such as textures or game code, allowing for quicker retrieval and rendering. This results in reduced loading times and smoother gameplay, enhancing the overall gaming experience.
Seamless Multi-Tasking
The larger cache size enables efficient multi-tasking by reducing the need to constantly fetch data from the main memory. When running multiple applications simultaneously, each core can quickly access the required data from the cache, minimizing any potential performance bottlenecks caused by memory latency. Users can switch between tasks seamlessly without experiencing noticeable slowdowns or lag.
Cache Hierarchy
The cache hierarchy of the IBM Xeon Gold 5217 Processor is designed to optimize performance. The processor features multiple levels of cache, including L1, L2, and L3 caches. Each level has a different capacity and proximity to the cores, with the L1 cache being the closest and fastest. This hierarchical structure ensures that frequently accessed data is stored in the fastest cache level, further enhancing overall system performance.
Improved Energy Efficiency
The larger cache size can contribute to improved energy efficiency. By reducing the need to access the main memory frequently, the processor can operate at lower power levels when executing tasks that utilize data stored in the cache. This results in reduced energy consumption and ultimately contributes to a more environmentally friendly computing experience.
Power
Introduction
The power consumption of a processor is an important consideration for users concerned about energy efficiency or operating costs. The IBM Xeon Gold 5217 Processor consumes 115w of power. In this section, we will explore the benefits and importance of this feature for users.
Energy Efficiency
Despite its impressive performance capabilities, the IBM Xeon Gold 5217 Processor maintains excellent energy efficiency. The processor's power consumption of 115w strikes a balance between performance and power efficiency. This means that users can enjoy high-performance computing without excessively consuming energy or generating excessive heat.
Cost Savings
For users who run their computers for extended periods or operate multiple systems in a data center environment, power consumption directly impacts operating costs. The 115w power consumption of this processor translates into lower electricity bills compared to processors with higher power requirements. Over time, these cost savings can be significant, making the IBM Xeon Gold 5217 Processor an economically sensible choice.
Environmental Impact
Reducing energy consumption not only benefits users' wallets but also contributes to a more sustainable environment. By choosing a processor with a power consumption of 115w, users can minimize their carbon footprint and contribute to a greener future. This is particularly relevant for businesses or organizations that prioritize sustainability and are actively seeking ways to reduce their environmental impact.
Thermal Management
The relatively low power consumption of the IBM Xeon Gold 5217 Processor simplifies thermal management. With lower power requirements, the processor generates less heat during operation, reducing the strain on cooling systems. This can result in quieter operation, as fans may not need to run at higher speeds continuously. Additionally, improved thermal management can contribute to the longevity of other system components, such as the motherboard or RAM.
Power Management Technologies
The IBM Xeon Gold 5217 Processor incorporates advanced power management technologies that optimize power consumption based on workload demands. These technologies dynamically adjust the processor's power consumption, ensuring that it operates efficiently while delivering the necessary performance when required. Users can benefit from reduced power consumption during idle or low-intensity tasks, further enhancing energy efficiency.
Reliability and Longevity
Efficient power consumption is closely tied to the reliability and longevity of a processor. By operating within its specified power limits, the IBM Xeon Gold 5217 Processor can deliver consistent performance while minimizing the risk of overheating or premature component degradation. This ensures long-term reliability and extends the lifespan of the processor, providing users with a dependable computing solution for years to come.
Manufacturing Technology
Introduction
The manufacturing technology used in a processor directly impacts its performance, power efficiency, and overall capabilities. The IBM Xeon Gold 5217 Processor is manufactured using a 14nm process, which offers several benefits and importance for users. In this section, we will delve into the manufacturing technology and its significance.
Enhanced Performance
The 14nm manufacturing technology allows for the integration of more transistors within a smaller area, resulting in increased processor performance. With more transistors, the IBM Xeon Gold 5217 Processor can handle more complex instructions and calculations simultaneously. This leads to improved overall performance, making it ideal for demanding tasks such as content creation, scientific simulations, or data analysis.
Power Efficiency
The 14nm manufacturing process contributes to excellent power efficiency. Smaller transistors require less power to switch on and off, reducing energy consumption. The IBM Xeon Gold 5217 Processor benefits from this power efficiency, allowing users to enjoy high-performance computing without excessive power requirements or increased heat generation.
Thermal Management
Smaller transistors also positively impact thermal management. The 14nm manufacturing process results in reduced heat generation compared to processors manufactured using larger nodes. This means that the IBM Xeon Gold 5217 Processor operates at lower temperatures, minimizing the strain on cooling systems and ensuring a more stable and reliable computing experience.
Future-Proofing
Investing in a processor manufactured with a 14nm process ensures a level of future-proofing. As technology advances, software and applications become more demanding. Processors manufactured using smaller nodes are better equipped to handle future workloads efficiently. By choosing a processor with a 14nm manufacturing technology, users can enjoy high-performance computing for an extended period without the need for frequent upgrades.
Improved Transistor Density
The 14nm process allows for higher transistor density compared to larger nodes. This increased density enables the IBM Xeon Gold 5217 Processor to pack more processing power within a smaller physical footprint. Users can benefit from a compact and efficient system without compromising performance or power efficiency.
Compatibility and Integration
Processors manufactured using a 14nm process are designed to be compatible with a wide range of existing systems and components. The IBM Xeon Gold 5217 Processor can seamlessly integrate into various motherboard architectures and support different memory types. This ensures compatibility with existing systems or facilitates easy upgrades without the need for extensive hardware changes.
In conclusion, the IBM Xeon Gold 5217 Processor's impressive features, including its 8 cores, 3.0GHz clock speed, 11MB cache, 115w power consumption, and 14nm manufacturing technology, collectively contribute to a high-performance computing experience. The 8 cores enable efficient multitasking, enhance productivity, improve gaming performance, and offer overclocking potential. The 3.0GHz clock speed ensures speed and responsiveness, optimized single-thread performance, and seamless multitasking. The 11MB cache reduces memory latency, improves application performance, enhances gaming experience, and facilitates seamless multi-tasking. The 115w power consumption balances performance and energy efficiency, offering cost savings, reducing environmental impact, simplifying thermal management, and ensuring reliability. Lastly, the 14nm manufacturing technology enhances performance, power efficiency, thermal management, future-proofing, transistor density, compatibility, and integration. With these remarkable features, the IBM Xeon Gold 5217 Processor is an excellent choice for users who demand superior computing power and efficiency.