Intel Xeon Platinum 8158 12-Core Processor SR3B7 3.00GHz 10.40GT/S UPI 24.75MB L3 Cache

Cores

The Intel Xeon Platinum 8158 Processor is equipped with an impressive 12 cores, making it a powerhouse for high-performance computing tasks. These cores are responsible for executing instructions and performing calculations, allowing the processor to handle multiple tasks simultaneously.

Benefits of 12 Cores

Having 12 cores greatly enhances the multitasking capabilities of the processor. It enables users to run resource-intensive applications such as virtual machines, scientific simulations, and data analysis tools with ease. Each core can handle a separate task, ensuring that the overall performance of the system remains smooth and responsive.

Improved Efficiency

With 12 cores, the Intel Xeon Platinum 8158 Processor can distribute the workload efficiently among its cores. This results in improved performance and faster execution times for complex tasks. Users can experience reduced waiting times and increased productivity, especially when dealing with demanding workloads.

Enhanced Scalability

The presence of 12 cores also enhances the scalability of the processor. It allows for easy expansion and growth, as applications and workloads become more demanding over time. The additional cores provide headroom for future upgrades and ensure that the processor can handle new technologies and software advancements without compromising performance.

Better Parallel Processing

Parallel processing is crucial for tasks that can be divided into smaller sub-tasks and executed simultaneously. With 12 cores, the Intel Xeon Platinum 8158 Processor excels at parallel processing, enabling faster completion of tasks that can benefit from parallelization. This is particularly beneficial for tasks such as rendering, video editing, and scientific simulations.

Optimized Workstation Performance

For professionals in industries such as architecture, engineering, and design, the 12 cores of the Intel Xeon Platinum 8158 Processor ensure exceptional workstation performance. Complex design software, 3D modeling applications, and rendering tasks can be executed with ease, allowing users to work efficiently and meet tight deadlines.

Seamless Virtualization

Virtualization has become an essential aspect of modern computing environments. With 12 cores, the Intel Xeon Platinum 8158 Processor enables smooth and efficient virtualization. It can host multiple virtual machines simultaneously without compromising performance, ensuring that businesses can maximize their server resources and achieve cost-effective virtualization solutions.

Base Clock

The base clock frequency of the Intel Xeon Platinum 8158 Processor is an impressive 3.00GHz. The base clock represents the minimum guaranteed frequency at which the processor operates under normal conditions and serves as a reference for performance comparisons.

Benefits of 3.00GHz Base Clock

The high base clock frequency of the Intel Xeon Platinum 8158 Processor offers several benefits to users, enhancing overall system performance and responsiveness.

Improved Single-Core Performance

The base clock frequency directly impacts the performance of individual cores. With a high base clock of 3.00GHz, the processor can deliver excellent single-core performance. This is particularly important for applications that are not well-optimized for multi-threading or rely heavily on single-threaded performance.

Smooth Multitasking

The high base clock also contributes to smooth multitasking capabilities. It ensures that each core has sufficient processing power to handle multiple tasks simultaneously, resulting in a seamless user experience even when running several demanding applications concurrently.

Faster Execution Times

The 3.00GHz base clock enables faster execution times for tasks that do not benefit from parallel processing or multi-threading. Applications that rely on single-threaded performance, such as gaming or certain productivity software, can benefit from the high base clock frequency by experiencing reduced waiting times and increased responsiveness.

Responsive Gaming Experience

Gamers can benefit from the high base clock of the Intel Xeon Platinum 8158 Processor, as it ensures smooth gameplay and improved frame rates. The processor can handle demanding games without bottlenecking the graphics card, resulting in a more immersive and enjoyable gaming experience.

Efficient Real-Time Processing

Real-time applications that require immediate processing, such as audio and video editing or live streaming, can greatly benefit from the high base clock frequency. The processor can quickly process incoming data, reducing latency and ensuring seamless real-time performance.

Bus Speed

The Intel Xeon Platinum 8158 Processor features a bus speed of 10.40GT/s. The bus speed, also known as the front-side bus (FSB) speed, represents the rate at which data is transferred between the processor and other components of the system, such as memory and peripherals.

Benefits of 10.40GT/s Bus Speed

The high bus speed of 10.40GT/s offers several advantages that contribute to overall system performance and responsiveness.

Improved Data Transfer Rates

The high bus speed allows for faster data transfer rates between the processor and other components of the system. This results in reduced latency and improved overall system performance, especially in tasks that involve frequent data transfers, such as large file transfers or database operations.

Enhanced Memory Performance

The bus speed has a direct impact on memory performance. With a high bus speed of 10.40GT/s, the Intel Xeon Platinum 8158 Processor can efficiently access system memory, ensuring smooth operation and faster data retrieval. This is particularly beneficial for memory-intensive applications that require large amounts of data to be processed quickly.

Optimized Peripheral Connectivity

The bus speed also affects the performance of peripheral devices connected to the system. With a high bus speed, the processor can effectively communicate with peripherals such as storage devices, graphics cards, and network adapters, ensuring efficient data transfer and reducing bottlenecks.

Faster Storage Access

The high bus speed of the Intel Xeon Platinum 8158 Processor enables faster access to storage devices, such as solid-state drives (SSDs) or high-speed hard disk drives (HDDs). This results in reduced loading times for applications and faster file transfers, enhancing overall system responsiveness.

Improved Graphics Performance

Graphics-intensive applications, such as video editing or 3D rendering software, can benefit from the high bus speed. It ensures efficient communication between the processor and the graphics card, allowing for smoother rendering, faster frame rates, and improved overall graphics performance.

Cache

The Intel Xeon Platinum 8158 Processor boasts a substantial 24.75MB L3 cache. The cache is a high-speed memory located on the processor itself, designed to store frequently accessed data and instructions.

Benefits of 24.75MB L3 Cache

The large L3 cache of the Intel Xeon Platinum 8158 Processor offers several benefits that contribute to improved overall system performance and responsiveness.

Reduced Memory Latency

The L3 cache acts as a buffer between the processor and system memory. With a larger cache, more data and instructions can be stored closer to the processor, reducing memory latency and ensuring faster access times. This results in improved overall system performance, especially in tasks that rely heavily on frequent data retrieval from memory.

Enhanced Instruction Execution

The large L3 cache allows for a greater number of instructions to be stored within close proximity to the processor cores. This enables faster instruction fetch and execution, reducing the time required for the processor to fetch instructions from system memory. As a result, tasks are executed more efficiently, leading to improved overall performance.

Improved Multi-Core Performance

The L3 cache plays a crucial role in multi-core performance. With a larger cache, each core has more space to store frequently accessed data, reducing the need to access system memory. This enhances multi-core performance, as data can be shared among cores more efficiently, resulting in faster execution times and improved overall system responsiveness.

Seamless Virtual Machine Performance

Virtualization environments, such as server farms or data centers, can greatly benefit from the large L3 cache of the Intel Xeon Platinum 8158 Processor. The cache allows for efficient sharing of data among virtual machines, reducing latency and ensuring smooth performance even under heavy virtualization workloads.

Faster Data Analysis

Data analysis tasks, such as big data processing or scientific simulations, often involve processing large datasets. The large L3 cache enables faster data retrieval and processing, reducing the time required for complex computations. This accelerates data analysis workflows and allows users to derive insights from their data more quickly.

Socket

The Intel Xeon Platinum 8158 Processor is designed to be compatible with the LGA3647 socket. The socket is a physical interface between the processor and the motherboard, allowing for proper electrical connections and secure attachment.

Benefits of LGA3647 Socket

The use of the LGA3647 socket offers several benefits to users, ensuring compatibility and ease of installation.

Compatibility with High-End Workstations

The LGA3647 socket is designed for high-performance processors such as the Intel Xeon Platinum 8158. It ensures compatibility with a wide range of high-end workstations and server motherboards, allowing users to take advantage of the processor's capabilities without worrying about socket compatibility issues.

Secure Attachment

The LGA3647 socket provides a secure attachment mechanism, ensuring that the processor is properly seated and making reliable electrical connections with the motherboard. This ensures a stable and secure system operation, reducing the risk of disconnections or intermittent connections that can lead to system instability or failure.

Efficient Heat Dissipation

The LGA3647 socket allows for efficient heat dissipation from the processor. The large contact area between the processor and the socket ensures optimal heat transfer, allowing for effective cooling solutions to keep the processor operating within safe temperature limits. This is particularly important for high-performance systems that generate a significant amount of heat.

Reliable System Performance

The LGA3647 socket's efficient heat dissipation capabilities contribute to reliable system performance. By keeping the processor cool, it prevents thermal throttling and ensures that the processor can operate at its full potential without performance degradation or instability.

Easy Upgrade Path

The use of the LGA3647 socket allows for easy future upgrades. Users can replace the Intel Xeon Platinum 8158 Processor with a compatible processor without needing to replace the entire motherboard. This provides flexibility and cost-effectiveness, ensuring that users can adapt their systems to meet evolving needs without significant hardware changes.

Manufacturing Technology

The Intel Xeon Platinum 8158 Processor is manufactured using a 14nm process technology. The manufacturing technology represents the size of the smallest feature that can be created on the processor's silicon die.

Benefits of 14nm Manufacturing Technology

The use of 14nm manufacturing technology offers several benefits in terms of performance, power efficiency, and transistor density.

Improved Performance

The smaller feature size of 14nm manufacturing technology allows for the creation of more transistors on the same silicon die compared to larger manufacturing processes. This results in increased transistor density, enabling the processor to perform more calculations per clock cycle. The improved transistor density contributes to enhanced overall performance and better power efficiency.

Power Efficiency

The 14nm manufacturing technology enables greater energy efficiency compared to larger manufacturing processes. The smaller transistors consume less power, resulting in reduced power consumption and lower heat generation. This is particularly important for high-performance processors such as the Intel Xeon Platinum 8158, as it allows for efficient operation while minimizing energy costs and heat dissipation requirements.

Higher Transistor Count

The use of 14nm manufacturing technology allows for a higher transistor count on the same silicon die compared to previous generations. This enables the inclusion of more advanced features, such as larger caches and improved instruction sets, without significantly increasing the physical size of the processor. The higher transistor count contributes to improved performance and enhanced capabilities.

Optimized Data Processing

The higher transistor count made possible by the 14nm manufacturing technology enhances data processing capabilities. The Intel Xeon Platinum 8158 Processor can handle complex calculations and perform advanced data manipulations efficiently, making it suitable for applications that require extensive computational power, such as scientific simulations, financial modeling, and artificial intelligence.

Lower Power Consumption

The 14nm manufacturing technology's lower power consumption contributes to reduced energy costs and environmental impact. The Intel Xeon Platinum 8158 Processor is designed to be energy-efficient, making it an ideal choice for organizations looking to build sustainable computing solutions without compromising performance.

Power Consumption

The Intel Xeon Platinum 8158 Processor has a power consumption rating of 150W. Power consumption represents the amount of electrical power the processor consumes during operation.

Benefits of 150W Power Consumption

The 150W power consumption rating of the Intel Xeon Platinum 8158 Processor offers several benefits in terms of power efficiency, cooling requirements, and operational costs.

Power Efficiency

The 150W power consumption rating demonstrates the processor's power efficiency. Despite its high-performance capabilities, the processor is designed to consume a reasonable amount of power, ensuring optimal energy utilization and minimizing waste. This is particularly important for organizations that aim to reduce their carbon footprint and energy costs without sacrificing performance.

Effective Cooling Solutions

The 150W power consumption rating allows for efficient cooling solutions to be implemented. Heat dissipation is crucial to maintaining stable system operation and preventing thermal throttling. The processor's moderate power consumption ensures that cooling solutions, such as fans or liquid cooling systems, can effectively dissipate heat, keeping the processor operating within safe temperature limits.

Cost-Effective Operation

The 150W power consumption rating contributes to cost-effective operation. Lower power consumption reduces energy costs, resulting in long-term savings for organizations running multiple high-performance systems. Additionally, the moderate power consumption reduces the infrastructure requirements for power delivery and cooling, further reducing operational costs.

Sustainable Computing Solutions

The Intel Xeon Platinum 8158 Processor's power efficiency and moderate power consumption make it an ideal choice for organizations looking to build sustainable computing solutions. By minimizing energy consumption and reducing environmental impact, the processor supports green initiatives and helps organizations meet their sustainability goals.

Optimized Performance per Watt

The 150W power consumption rating ensures an optimal balance between performance and power efficiency. The Intel Xeon Platinum 8158 Processor provides excellent performance per watt, making it suitable for applications that require high computational power while minimizing power consumption and heat generation. This is particularly beneficial for data centers, where maximizing performance per watt is crucial to achieve efficient and cost-effective operation.

Processor Code

The Intel Xeon Platinum 8158 Processor's processor code is SR3B7. The processor code represents a unique identifier assigned to each specific model of the processor.

Benefits of SR3B7 Processor Code

The SR3B7 processor code provides several benefits in terms of identification, compatibility, and support.

Accurate Identification

The processor code ensures accurate identification of the Intel Xeon Platinum 8158 Processor model. It allows users, system administrators, and support personnel to quickly identify the specific processor being used, ensuring proper compatibility and targeted troubleshooting.

Compatibility Verification

The SR3B7 processor code can be used to verify compatibility with other system components. By referring to the processor code, users can ensure that their chosen motherboard, memory modules, and other hardware components are compatible with the Intel Xeon Platinum 8158 Processor. This helps prevent compatibility issues and ensures a smooth system integration process.

Efficient Technical Support

The processor code is valuable when seeking technical support or assistance. Support personnel can quickly identify the exact model of the processor based on its code, allowing for more efficient troubleshooting and targeted solutions. This streamlines the support process and minimizes downtime associated with hardware-related issues.

Seamless Firmware Updates

Firmware updates play a critical role in maintaining optimal system performance and security. The SR3B7 processor code ensures that firmware updates can be accurately targeted to the Intel Xeon Platinum 8158 Processor, ensuring compatibility and avoiding potential issues related to incorrect firmware versions.

Product Documentation Access

Accessing product documentation, such as user manuals or datasheets, becomes easier with the SR3B7 processor code. Users can search for specific information related to the Intel Xeon Platinum 8158 Processor using its code, ensuring that