Dell Xeon Gold 6338 32-core 2.0ghz Processor Only JYXHF
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Product Overview of JYXHF
The DELL Gold 6238 Server Processor, identified by the part number JYXHF, represents a high-performance computing solution designed for demanding server environments.
Key Specifications
- Processor Type: Server Processor
- Manufacturer: DELL Technologies Limited
- Model Number: Gold 6238
- Part Number: JYXHF
Technical Details
- Number of Cores: 32
- Base Clock Speed: 2.00 GHz
- Turbo Frequency: Up to 3.20 GHz
- UltraPath Interconnect (UPI) Speed: 11.2 GT/s
- Number of UPI Links: 3
Instruction Set Features
- Instruction Set: 64-bit
- Instruction Set Extensions: Intel® SSE4.2, Intel® AVX, Intel® AVX2, Intel® AVX-512
Cache and Power
- L3 Cache: 48 MB
Power Requirements
- Thermal Design Power (TDP): 205 W
- Process Technology: 10 nm
Memory Specifications
Maximum Memory Capacity: 6 TB (dependent on memory type)
- Supported Memory Types: DDR4-3200
- Maximum Memory Speed: 3.2 GHz
- Number of Memory Channels: 8
- ECC Memory Support: Yes
Compatible Socket
- Processor Socket: FCLGA4189
Core Count: 32
The Dell Xeon Gold 6338 Processor is equipped with an impressive core count of 32. This means that it has 32 individual processing units, allowing it to handle multiple tasks simultaneously. The higher the core count, the more efficiently the processor can handle complex tasks and multitasking.
Improved Performance
With 32 cores, the Dell Xeon Gold 6338 Processor offers enhanced performance compared to processors with lower core counts. It can handle demanding workloads and applications, such as video editing, rendering, and virtualization, with ease. The increased number of cores allows for faster data processing and improved overall system performance.
Efficient Multitasking
The high core count of this processor enables efficient multitasking. It can handle multiple tasks simultaneously without experiencing significant slowdowns or performance bottlenecks. This is particularly beneficial for professionals who need to run resource-intensive applications or work on several projects at the same time.
Scalability
The 32-core configuration of the Dell Xeon Gold 6338 Processor provides scalability for future growth and expansion. It offers ample headroom for handling more demanding applications and workloads as technology evolves. This makes it a suitable choice for businesses and individuals who require a processor that can keep up with their changing needs.
Increased Productivity
With 32 cores, users can experience increased productivity as they can complete tasks more quickly and efficiently. The processor's ability to handle complex calculations and data processing allows for faster data analysis, reducing the time required to make informed decisions.
Smooth Gaming Experience
Gamers can also benefit from the high core count of the Dell Xeon Gold 6338 Processor. Many modern games require multiple cores to run smoothly, especially those with advanced graphics and physics engines. With 32 cores, this processor can handle demanding gaming environments, delivering a smooth and immersive gaming experience.
Server Applications
The 32-core configuration is particularly advantageous for server applications. Servers often need to handle numerous concurrent requests and process large amounts of data. The Dell Xeon Gold 6338 Processor's high core count allows for efficient handling of these tasks, ensuring smooth server performance and reducing the possibility of bottlenecks.
Virtualization
For virtualization purposes, the 32-core setup enables the creation and management of multiple virtual machines simultaneously. This is essential for businesses that rely on virtualization technology to consolidate their infrastructure, reduce costs, and improve overall system efficiency.
Data Analysis
Data-intensive tasks such as data analysis and scientific simulations can greatly benefit from the 32-core capability of the Dell Xeon Gold 6338 Processor. The increased number of cores allows for faster processing of large datasets, enabling quicker insights and more efficient scientific research.
Content Creation
Content creators who work with video editing, 3D modeling, animation, and other resource-intensive applications can take advantage of the processor's high core count to reduce rendering times and improve workflow efficiency. The ability to handle complex calculations simultaneously ensures smoother editing and faster project completion.
Base Clock Speed: 2.0GHz
The Dell Xeon Gold 6338 Processor features a base clock speed of 2.0GHz. The base clock speed represents the minimum frequency at which the processor operates under normal conditions. While it may seem lower compared to some other processors, it is important to consider the benefits and importance of this feature.
Power Efficiency
A lower base clock speed contributes to improved power efficiency. The Dell Xeon Gold 6338 Processor is designed to operate at lower frequencies when idle or under light workloads, reducing power consumption and heat generation. This is particularly beneficial for systems that require long periods of operation or for data centers with high-density server deployments.
Boost Clock Speed
Although the base clock speed is 2.0GHz, the Dell Xeon Gold 6338 Processor employs Intel Turbo Boost technology to dynamically increase its frequency when required. This allows the processor to reach higher speeds when demanding applications or workloads are detected. The boost clock speed can exceed the base clock speed significantly, providing enhanced performance when needed.
Stability and Reliability
The lower base clock speed contributes to the stability and reliability of the processor. By operating at a conservative frequency, the processor generates less heat and experiences lower thermal stress. This can lead to improved longevity and reduced chances of system instability or crashes.
Consistent Performance
The Dell Xeon Gold 6338 Processor's base clock speed ensures consistent performance across all cores. Each core operates at the same base frequency, ensuring fairness in task distribution and preventing potential bottlenecks caused by individual cores running at different speeds. This consistency is crucial for maintaining smooth system operation and preventing performance fluctuations.
Cooling Efficiency
A lower base clock speed allows for more efficient cooling solutions. With lower heat output, cooling systems can effectively dissipate heat, ensuring that the processor operates within optimal temperature ranges. This is particularly important in high-performance systems where effective cooling is necessary to prevent thermal throttling and maintain peak performance.
Longevity of Components
The lower base clock speed contributes to the longevity of other system components. By operating at lower frequencies, the processor puts less strain on the motherboard, power supply, and other connected hardware. This can help extend the lifespan of these components, reducing the need for frequent replacements and saving costs in the long run.
Power Savings
The lower base clock speed of the Dell Xeon Gold 6338 Processor results in significant power savings. This is particularly important for businesses and individuals looking to reduce their energy consumption and lower electricity bills. The power efficiency offered by this processor makes it an environmentally friendly choice.
Quiet Operation
Due to its lower base clock speed, the processor generates less heat, which in turn reduces the need for active cooling solutions such as fans. This results in quieter operation, making the Dell Xeon Gold 6338 Processor suitable for environments where noise reduction is a priority, such as recording studios or quiet office spaces.
Overclocking Potential
While the base clock speed is set at 2.0GHz, users who require higher performance can explore overclocking options. Overclocking involves manually increasing the frequency of the processor beyond its default settings. With proper cooling and expertise, users can push the processor to higher speeds, further enhancing its performance.
Cache Size: 48MB
The Dell Xeon Gold 6338 Processor boasts a generous cache size of 48MB. The cache is a small but extremely fast memory storage located on the processor itself. The cache size plays a vital role in determining how quickly the processor can access frequently used data, which significantly impacts overall system performance.
Faster Data Access
A larger cache size allows for faster data access. The Dell Xeon Gold 6338 Processor's 48MB cache can store a substantial amount of frequently accessed data, reducing the time it takes for the processor to retrieve information. This results in improved performance, especially when handling repetitive or data-intensive tasks.
Reduced Memory Latency
The cache acts as a buffer between the processor and the main memory, reducing memory latency. When data is stored in cache, it can be accessed much faster than if it had to be retrieved from the main memory. This reduces the time the processor spends waiting for data, resulting in improved overall system responsiveness.
Improved Instruction Execution
A larger cache size allows for more instructions and data to be stored closer to the processor cores. This proximity enables faster instruction execution as the processor can access the required data without waiting for it to be fetched from system memory. The Dell Xeon Gold 6338 Processor's generous cache size enhances instruction execution efficiency, leading to improved performance in various applications and workloads.
Enhanced Gaming Performance
Gamers can benefit from the 48MB cache size of the Dell Xeon Gold 6338 Processor. The fast access to frequently used game data stored in cache reduces loading times and improves overall gaming performance. This results in smoother gameplay and a more immersive gaming experience.
Efficient Content Creation
Content creators who work with large files, such as high-resolution images or videos, can take advantage of the generous cache size. By storing frequently accessed project files in cache, the processor can quickly access them during editing or rendering processes. This leads to improved workflow efficiency and faster project completion.
Optimized Virtualization
Virtualization environments can greatly benefit from a larger cache size. As virtual machines share resources, having frequently accessed data stored in cache allows for faster access and improved overall performance. This is particularly important in scenarios where multiple virtual machines are running simultaneously, ensuring smooth operation without performance degradation.
Database Performance
For database applications, the 48MB cache size of the Dell Xeon Gold 6338 Processor is highly advantageous. Databases often require quick access to frequently accessed data, and a larger cache size helps minimize the time taken to retrieve information. This results in faster query execution and improved database performance.
Simultaneous Multithreading
The generous cache size complements the processor's ability to handle simultaneous multithreading (SMT). SMT allows each core to execute multiple threads simultaneously, effectively increasing the number of available processing threads. With a larger cache size, each thread can benefit from faster data access, resulting in improved overall performance in multithreaded applications.
Seamless Web Browsing
The 48MB cache size ensures smooth web browsing experiences by storing frequently visited websites and their associated data in cache. This allows for faster loading of web pages and reduces the time it takes to retrieve content from the internet. Users can enjoy seamless browsing without experiencing significant delays or slowdowns.
Upi Speed: 11.2GT/s
The Dell Xeon Gold 6338 Processor features an impressive UPI (Ultra Path Interconnect) speed of 11.2GT/s. UPI is a high-speed interconnect technology that facilitates communication between processors and other system components. The UPI speed determines how quickly data can be transferred between these components, which is crucial for overall system performance.
Faster Data Transfer
A higher UPI speed allows for faster data transfer between processors and other system components. The 11.2GT/s UPI speed of the Dell Xeon Gold 6338 Processor ensures efficient communication, minimizing bottlenecks and reducing latency. This results in improved overall system performance, particularly when handling data-intensive tasks or running multiple applications simultaneously.
Scalability and Expansion
The high UPI speed provides scalability and expansion options for systems utilizing multiple processors. By allowing for faster communication between processors, the Dell Xeon Gold 6338 Processor enables efficient scaling of system resources. This is particularly beneficial for server applications or high-performance computing environments where increased processing power is required.
Enhanced Multithreading
Higher UPI speeds are crucial for efficient multithreading capabilities. The Dell Xeon Gold 6338 Processor's 11.2GT/s UPI speed supports simultaneous multithreading, allowing for the execution of multiple threads on each core. The fast interconnect speed ensures smooth communication between threads and minimizes the potential for performance bottlenecks.
Improved Server Performance
Servers can greatly benefit from the 11.2GT/s UPI speed of the Dell Xeon Gold 6338 Processor. In server environments, efficient communication between processors is essential for handling numerous concurrent requests and maintaining fast response times. The high UPI speed ensures smooth operation and reduces potential performance limitations.
High-Performance Computing
The Dell Xeon Gold 6338 Processor's high UPI speed is advantageous for high-performance computing (HPC) applications. HPC systems often require fast interconnect speeds to facilitate communication between nodes and processors. The 11.2GT/s UPI speed enables efficient data exchange, improving the overall performance of HPC clusters and reducing computational time.
Large-Scale Virtualization
For large-scale virtualization deployments, the 11.2GT/s UPI speed plays a crucial role in maintaining efficient communication between virtual machines and physical processors. The high interconnect speed ensures smooth operation and minimizes latency, allowing for seamless resource sharing and improved overall virtualization performance.
Memory Bandwidth
The high UPI speed of the Dell Xeon Gold 6338 Processor contributes to improved memory bandwidth. Efficient communication between processors and memory modules enables faster data transfer, reducing the time it takes to access information stored in RAM. This results in enhanced application performance, particularly in memory-intensive tasks such as data analysis or scientific simulations.
Distributed Computing
Distributed computing environments, where multiple systems work together to solve complex problems, can benefit from the high UPI speed. The fast interconnect allows for efficient data sharing and communication between nodes, ensuring optimal performance and reducing the time required to complete distributed computing tasks.
Cluster Computing
In cluster computing scenarios, where multiple systems are interconnected to work as a single powerful unit, the 11.2GT/s UPI speed is vital for efficient communication between nodes. The high interconnect speed enables fast data sharing, allowing for improved cluster performance and faster execution of parallel computing tasks.
Socket Type: FCLGA4189
The Dell Xeon Gold 6338 Processor utilizes the FCLGA4189 socket type. The socket type determines the physical interface between the processor and the motherboard. The FCLGA4189 socket is specifically designed for server-grade processors and offers several benefits and importance for users.
Compatibility
The FCLGA4189 socket type ensures compatibility with server-grade motherboards that support this specific socket configuration. This provides users with a wide range of options when selecting a motherboard for their server systems. It allows for seamless integration and ensures that the processor can be installed and utilized without any compatibility issues.
Scalability
The FCLGA4189 socket type supports high-performance server processors, making it suitable for scalable server configurations. Servers can be easily upgraded or expanded by replacing or adding additional processors compatible with the FCLGA4189 socket. This flexibility allows businesses to adapt their server infrastructure to meet their evolving needs and demands.
Robust Connection
The FCLGA4189 socket provides a robust and secure connection between the processor and the motherboard. The Land Grid Array (LGA) design ensures precise alignment and optimal electrical contact, minimizing the potential for connection issues or signal degradation. This results in reliable performance and reduced chances of system instability or failure.
Server Reliability
The FCLGA4189 socket type contributes to the overall reliability of server systems. The secure connection between the processor and the motherboard ensures stable operation, even under heavy workloads or continuous operation. This reliability is crucial for businesses that rely on uninterrupted server performance to deliver services and maintain productivity.
Redundancy and Failover
The FCLGA4189 socket type supports redundancy and failover configurations commonly used in mission-critical server environments. By utilizing multiple processors with this socket type, systems can be designed to automatically switch to backup processors in the event of a failure. This ensures minimal downtime and maintains service availability.
Server Management Features
The FCLGA4189 socket type is often associated with server-grade motherboards that offer advanced management features. These features include remote monitoring, remote administration, and remote BIOS configuration. The combination of this socket type and compatible motherboards allows for efficient server management and simplifies the task of monitoring and maintaining server systems.
High-Performance Computing Clusters
The FCLGA4189