Intel Xeon Platinum 8164 CD8067303408800 2.0GHz 35.75MB L3 Cache 10.4GT/S UPI Speed Socket FCLGA3647 14NM 150W Processor

Core Count: 26

The Intel Xeon Platinum 8164 Processor is equipped with an impressive core count of 26. This means that the processor has 26 individual processing units or cores, each capable of executing tasks simultaneously. The high core count is a significant advantage for users who require intense computing power and need to handle multiple tasks or processes concurrently.

Increased Performance

The extensive core count of the Intel Xeon Platinum 8164 Processor leads to a significant boost in performance. With more cores available, the processor can handle a larger number of threads and execute instructions more efficiently. This results in faster and smoother multitasking capabilities, allowing users to run demanding applications or perform complex calculations without experiencing any lag or slowdown.

Enhanced Parallel Processing

The large core count also enables enhanced parallel processing capabilities. Parallel processing refers to the ability of a processor to divide a task into smaller sub-tasks and execute them simultaneously. With 26 cores, the Intel Xeon Platinum 8164 Processor can divide complex tasks into smaller parts and process them in parallel, significantly reducing the overall processing time.

Ideal for Resource-Intensive Applications

Resource-intensive applications, such as scientific simulations, data analysis, and virtualization, require significant computational power. The high core count of the Intel Xeon Platinum 8164 Processor makes it an ideal choice for these applications. It can efficiently handle the heavy workload and deliver superior performance, ensuring smooth and efficient operation even under heavy usage.

Multi-Threaded Applications

Multi-threaded applications can take full advantage of the 26 cores provided by the Intel Xeon Platinum 8164 Processor. These applications are designed to run multiple threads simultaneously, dividing the workload among different cores. The increased core count allows for better utilization of these applications, resulting in improved performance and responsiveness.

Virtualization

Virtualization is another area where the high core count of the processor proves beneficial. With virtualization, multiple virtual machines can run on the same physical server. Each of these virtual machines requires dedicated processing power to function efficiently. The 26 cores of the Intel Xeon Platinum 8164 Processor enable smooth and efficient virtualization, allowing users to run multiple virtual machines without compromising performance.

Scalability

The Intel Xeon Platinum 8164 Processor offers scalability, allowing users to expand their computing power as their needs grow. With 26 cores, the processor provides ample room for future expansion and can accommodate increasing workloads without the need for hardware upgrades. This scalability ensures that users can continue to benefit from the processor's high performance even as their requirements evolve.

Efficient Resource Allocation

The large core count also enables efficient resource allocation within a system. With 26 cores, the processor can distribute computing resources effectively among different tasks or applications, ensuring optimal utilization of available processing power. This efficient resource allocation leads to improved overall system performance and responsiveness.

Base Clock Speed: 2.0GHz

The Intel Xeon Platinum 8164 Processor features a base clock speed of 2.0GHz. The base clock speed represents the default frequency at which the processor operates without any boosts or overclocking. While it may seem lower compared to some other processors on the market, there are several benefits and important aspects to consider when evaluating the base clock speed.

Power Efficiency

A lower base clock speed often indicates that the processor is designed to prioritize power efficiency. By operating at a lower frequency, the Intel Xeon Platinum 8164 Processor can minimize power consumption and reduce heat generation. This is particularly advantageous in server environments where power efficiency is crucial to maintain optimal performance while keeping energy costs and cooling requirements in check.

Boost Clock Frequency

Although the base clock speed may be lower, modern processors like the Intel Xeon Platinum 8164 Processor often incorporate dynamic frequency scaling technology. This technology allows the processor to increase its clock speed when necessary, depending on the workload. The processor can dynamically boost its clock frequency to higher levels, providing additional processing power when required.

Single-Core Performance

While the base clock speed may not be as high as some other processors, the Intel Xeon Platinum 8164 Processor can still deliver exceptional single-core performance. Single-core performance is crucial for tasks that are not heavily multi-threaded and rely on a single core for execution. With its efficient architecture and optimizations, the processor ensures that applications and processes relying on single-threaded performance run smoothly and quickly.

Power Consumption

Operating at a lower base clock speed contributes to reduced power consumption. This is particularly beneficial for systems where power efficiency is a priority, such as data centers or high-performance computing environments. The Intel Xeon Platinum 8164 Processor's lower base clock speed allows for better energy utilization, resulting in lower electricity costs and reduced environmental impact.

Cooling Requirements

The lower base clock speed also leads to decreased heat generation, which translates into lower cooling requirements. In server environments where multiple processors are deployed, managing heat dissipation becomes critical to ensure stable operation and prevent thermal throttling. The Intel Xeon Platinum 8164 Processor's lower base clock speed contributes to more manageable cooling requirements and helps maintain system stability.

Overclocking Potential

While the base clock speed represents the default operating frequency, the Intel Xeon Platinum 8164 Processor still offers overclocking potential. Overclocking refers to pushing the processor beyond its default clock speed to achieve higher performance. Although it is important to carefully consider stability and cooling requirements, users can explore overclocking options to further enhance the processor's capabilities.

L3 Cache: 35.75MB

The Intel Xeon Platinum 8164 Processor boasts a generous L3 cache size of 35.75MB. The L3 cache plays a crucial role in improving overall system performance and responsiveness by providing quick access to frequently used data and instructions.

Faster Data Access

The substantial L3 cache size allows the processor to store a significant amount of data that can be accessed quickly. When the processor needs to retrieve data or instructions, it first checks the L3 cache. If the required information is present in the cache, it can be fetched without accessing slower memory or storage devices. This results in faster data retrieval and processing, enhancing overall system performance.

Reduced Memory Latency

The large L3 cache size helps minimize memory latency, which is the delay between requesting data from memory and receiving it. With a larger cache, a greater amount of data can be stored close to the processor, reducing the need to access main memory frequently. This leads to lower memory latency and improved system responsiveness, especially when dealing with applications that heavily rely on memory access.

Improved Gaming Performance

In gaming scenarios, where quick data access is vital for smooth gameplay, the large L3 cache size of the Intel Xeon Platinum 8164 Processor contributes to improved gaming performance. Game assets, such as textures and models, can be stored in the cache, allowing for faster retrieval and rendering. This results in reduced loading times, smoother gameplay, and a more immersive gaming experience.

Accelerated Content Creation

Content creators, such as video editors, graphic designers, and 3D animators, often work with large files and complex projects. The ample L3 cache size of the Intel Xeon Platinum 8164 Processor aids in accelerating content creation workflows. The cache can store frequently accessed project files, assets, and rendering instructions, allowing for quicker access and processing. This reduces rendering times, improves editing capabilities, and enhances overall productivity.

Simultaneous Multi-Tasking

The large L3 cache size also benefits users who frequently engage in simultaneous multi-tasking. When running multiple applications or processes concurrently, the processor can store relevant data from different tasks in the cache. This reduces the need to repeatedly fetch data from slower memory or storage devices, resulting in smoother multi-tasking performance and improved responsiveness.

Virtualization Performance

Virtualization platforms rely heavily on efficient memory access for optimal performance. The Intel Xeon Platinum 8164 Processor's substantial L3 cache size enhances virtualization performance by providing quick access to virtual machine data and instructions. This ensures smooth operation and responsiveness when running multiple virtual machines simultaneously.

Upi Speed: 10.4GT/S

The Intel Xeon Platinum 8164 Processor features an impressive Upi Speed of 10.4GT/S (GigaTransfers per second). Upi (Ultra Path Interconnect) is the high-speed interconnect technology used to connect multiple processors within a system. The Upi Speed plays a crucial role in determining the overall communication capabilities and system performance.

Faster Inter-Processor Communication

The high Upi Speed of the Intel Xeon Platinum 8164 Processor enables faster communication between multiple processors. In multi-processor systems, efficient communication between processors is essential for tasks that require collaboration or data sharing. The high Upi Speed ensures that data can be exchanged quickly, facilitating smooth and efficient parallel processing.

Scalability and Expandability

The impressive Upi Speed also contributes to the scalability and expandability of a system. A high-speed interconnect allows for easy integration of additional processors, enabling users to scale up their computing power as their needs grow. This scalability is particularly advantageous in server environments that require the ability to handle increasing workloads without sacrificing performance.

Improved System Responsiveness

The high Upi Speed not only enhances inter-processor communication but also improves overall system responsiveness. With faster data exchange between processors, tasks that require collaboration or synchronization, such as parallel processing or distributed computing, can be executed more efficiently. This results in reduced latency and improved system responsiveness.

Efficient Workload Distribution

In multi-processor systems, workload distribution plays a crucial role in achieving optimal performance. The high Upi Speed allows for efficient workload distribution among processors, ensuring that tasks are assigned to the most suitable processor based on their requirements. This helps in balancing the computational load across the system and prevents individual processors from becoming overwhelmed, leading to better overall performance.

Parallel Processing Performance

The Intel Xeon Platinum 8164 Processor's high Upi Speed significantly enhances parallel processing performance. Parallel processing refers to the ability to divide a task into smaller sub-tasks and execute them concurrently across multiple processors. With its high Upi Speed, the processor can efficiently exchange data between processors, enabling seamless parallel execution and improving overall processing speed.

Distributed Computing

Distributed computing involves utilizing multiple processors or systems to work together on a common task. The high Upi Speed of the Intel Xeon Platinum 8164 Processor facilitates efficient communication and coordination between distributed computing nodes, enabling seamless collaboration and achieving higher processing power for demanding computing tasks.

Socket Type: FCLGA3647

The Intel Xeon Platinum 8164 Processor utilizes the FCLGA3647 socket type. The socket type is an essential factor to consider when selecting compatible motherboards and ensuring proper connectivity between the processor and other system components.

Wide Compatibility

The FCLGA3647 socket type is widely supported by various server-grade motherboards, ensuring compatibility with a range of systems. This provides users with flexibility when choosing a motherboard that suits their specific requirements. The broad compatibility of the socket type allows for easy integration of the Intel Xeon Platinum 8164 Processor into existing systems or the creation of new server configurations.

Robust Connection

The FCLGA3647 socket type features a robust connection mechanism that ensures secure attachment of the processor to the motherboard. The socket design, which incorporates a large number of pins, provides reliable electrical connections for data transfer and power delivery. This robust connection minimizes the risk of poor connectivity or disconnection during operation, ensuring stable performance and preventing potential system issues.

Support for High-Speed Interfaces

The FCLGA3647 socket type supports high-speed interfaces necessary for modern server environments. These interfaces include DDR4 memory modules, PCI Express (PCIe) slots for expansion cards, and storage interfaces such as SATA or NVMe. The compatibility with high-speed interfaces allows users to take full advantage of the Intel Xeon Platinum 8164 Processor's capabilities and connect it to the latest hardware technologies.

Server-grade Reliability

The FCLGA3647 socket type is specifically designed for server-grade processors like the Intel Xeon Platinum 8164 Processor. It meets stringent quality and reliability standards, ensuring long-term stability and performance in demanding server environments. The use of a server-grade socket type enhances system reliability and reduces the likelihood of connectivity issues or compatibility conflicts.

Scalability and Upgradeability

The FCLGA3647 socket type supports scalability and upgradeability, allowing users to expand their server configurations or upgrade to more powerful processors in the future. The socket's compatibility with a wide range of processors provides the flexibility to adapt to changing requirements without the need for major hardware replacements. This scalability ensures that users can continue to benefit from the Intel Xeon Platinum 8164 Processor's performance as their needs evolve.

Efficient Heat Dissipation

The FCLGA3647 socket type incorporates features that aid in efficient heat dissipation. The large contact area between the processor and the socket facilitates better thermal transfer, allowing heat generated by the processor to be dissipated effectively through the motherboard and cooling solutions. This efficient heat dissipation helps maintain optimal operating temperatures, preventing thermal throttling and ensuring stable system performance.

Manufacturing Technology: 14NM

The Intel Xeon Platinum 8164 Processor is manufactured using the advanced 14nm (nanometer) process technology. The manufacturing technology refers to the size of the smallest features that can be created on a semiconductor chip. A smaller manufacturing process brings several benefits and improvements to the performance, power efficiency, and capabilities of the processor.

Improved Performance

The use of a 14nm manufacturing process allows for the creation of smaller and more efficient transistors on the processor chip. Smaller transistors enable faster switching speeds, reducing delays and improving the overall performance of the Intel Xeon Platinum 8164 Processor. The improved performance is particularly noticeable in tasks that require fast execution, such as data processing, simulations, or complex calculations.

Power Efficiency

The 14nm manufacturing process enables better power efficiency compared to larger process technologies. Smaller transistors require less power to switch between states, resulting in reduced power consumption by the Intel Xeon Platinum 8164 Processor. This enhanced power efficiency is crucial for server environments where energy costs and cooling requirements need to be minimized without compromising performance.

Heat Dissipation

The use of a 14nm manufacturing process contributes to improved heat dissipation capabilities. Smaller transistors generate less heat during operation, allowing for more efficient cooling and thermal management. This is particularly important in server environments where multiple processors are deployed, and effective heat dissipation is essential to maintain stable performance and prevent thermal throttling.

Overclocking Potential

The advanced 14nm manufacturing process also enhances the Intel Xeon Platinum 8164 Processor's overclocking potential. Overclocking refers to running the processor at frequencies higher than its default specifications to achieve increased performance. With a smaller manufacturing process, the processor has more headroom for higher clock speeds while maintaining stability. Users interested in pushing the limits of their system can explore overclocking options to extract additional performance from the processor.

Improved Power Density

The 14nm manufacturing technology allows for higher transistor density on the processor chip. This improved power density translates into more processing power within a smaller physical footprint. The Intel Xeon Platinum 8164 Processor's higher transistor count and increased processing power enable users to achieve superior performance and computational capabilities without the need for larger systems or additional hardware.

Future-Proofing

The use of a more advanced