Dell M3RTR Xeon Gold 6326 16-core 2.90ghz 24mb Smart Cache 11.2gt/s Processor
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Processor Type: Intel Xeon Gold 6326
The Dell M3RTR Processor is equipped with the powerful Intel Xeon Gold 6326, which offers exceptional performance and reliability for a wide range of computing tasks. This processor is designed to handle demanding workloads and deliver impressive results, making it an excellent choice for professionals and enthusiasts alike.
Enhanced Performance
With the Intel Xeon Gold 6326, users can experience enhanced performance and productivity. The processor features a high clock speed and multiple cores, allowing for faster data processing and improved multitasking capabilities. Whether you are working on complex simulations, video editing, or running resource-intensive applications, this processor can handle it all with ease.
Dell M3RTR Server Processor
- Product Type: Server Processor
- Manufacturer: Dell
- Part Number: M3RTR
- Model: Intel Gold 6326
Key Technical Information
- Processor Cores: 16-core
- Base Clock Speed: 2.90 GHz
- Maximum Turbo Frequency: 3.50 GHz
- Instruction Set: 64-bit
- Extensions Supported: Intel® SSE4.2, Intel® AVX, Intel® AVX2, Intel® AVX-512
Cache Memory Details
- Smart Cache: 24 MB
Processor Fabrication
- Process Technology: 10 nm
- Maximum Thermal Design Power (TDP): 185W
- Processor Socket: FCLGA4189
Memory Specifications
- Maximum Memory Capacity: 6 TB (depending on memory type)
- Supported Memory Types: DDR4-3200
- Memory Speed: 3.2 GHz
- Number of Memory Channels: 8
- Error-Correcting Code (ECC) Support: Yes
Efficient Virtualization
In addition to its raw processing power, the Intel Xeon Gold 6326 excels in virtualization tasks. It supports advanced virtualization technologies, such as Intel Virtualization Technology (VT-x) and Intel Virtualization Technology for Directed I/O (VT-d), which enable efficient resource allocation and management in virtualized environments. This makes it an ideal choice for running virtual machines and optimizing server performance.
Reliability and Stability
The Intel Xeon Gold 6326 is built with the latest technology and undergoes rigorous testing to ensure reliability and stability. With its robust architecture and advanced features, this processor can handle continuous operation without compromising performance. It is designed to meet the demands of mission-critical applications, providing peace of mind to users who rely on their systems for uninterrupted productivity.
Security Features
Intel processors are known for their robust security features, and the Xeon Gold 6326 is no exception. It includes technologies such as Intel Trusted Execution Technology (TXT) and Intel Platform Protection Technology (PPT), which help safeguard data and protect against emerging threats. Whether you are handling sensitive information or running critical applications, the security features of this processor provide an added layer of protection.
Core Count: 16
The Dell M3RTR Processor boasts an impressive 16 cores, making it a powerhouse for multitasking and demanding computational tasks. With this high core count, users can experience enhanced performance and efficiency across a wide range of applications and workloads.
Improved Multitasking
Having 16 cores allows for efficient multitasking, as each core can handle its own set of instructions simultaneously. Whether you are running multiple applications, rendering complex graphics, or working with large data sets, the high core count of this processor ensures smooth and responsive performance. This capability is especially beneficial for professionals in fields such as video editing, 3D modeling, and scientific research.
Faster Data Processing
The 16 cores in the Dell M3RTR Processor enable faster data processing by distributing workload across multiple cores. This results in reduced processing times and improved overall system responsiveness. Whether you are performing complex calculations or running simulations, the high core count ensures that tasks are completed efficiently and in a timely manner.
Optimized Resource Allocation
The high core count also allows for optimized resource allocation, as each core can be assigned specific tasks or applications. This means that different processes can run simultaneously without impacting each other's performance. Users can allocate specific cores to critical tasks or assign dedicated cores to individual applications, ensuring efficient utilization of system resources.
Future-Proofing
The 16-core configuration of the Dell M3RTR Processor provides future-proofing for users who anticipate increasing computational demands over time. As software and applications continue to evolve and become more demanding, having a high core count ensures that your system can handle future workloads without the need for immediate upgrades. This makes the processor a wise investment for users looking for long-term performance and scalability.
Base Clock Speed: 2.90 GHz
The Dell M3RTR Processor features a base clock speed of 2.90 GHz, providing a solid foundation for efficient and responsive performance. The base clock speed represents the frequency at which the processor operates under normal conditions, and it plays a crucial role in determining how quickly tasks are executed.
Fast and Responsive Performance
The 2.90 GHz base clock speed ensures fast and responsive performance across a variety of applications and workloads. Whether you are browsing the web, working with office productivity software, or engaging in multimedia tasks, the processor can handle these tasks efficiently without compromising responsiveness. This ensures a smooth user experience and minimizes delays or lags.
Quick Application Launching
The base clock speed directly affects how quickly applications launch and respond to user input. With a higher base clock speed, applications load faster, allowing users to get to work without wasting valuable time waiting for software to start up. This is particularly important for professionals who rely on productivity software or frequently switch between multiple applications throughout their workflow.
Seamless Multitasking
A higher base clock speed also enhances multitasking capabilities by ensuring that tasks are executed quickly and efficiently. Whether you are running multiple applications simultaneously or performing resource-intensive tasks, the processor's base clock speed ensures that each task receives sufficient processing power to maintain smooth performance. This is essential for professionals who need to juggle multiple projects or complex workflows.
Smooth Gaming Experience
For gamers, a higher base clock speed translates into a smoother gaming experience. The processor's ability to quickly process game instructions and render graphics ensures that games run seamlessly without stuttering or lag. Whether you are playing the latest AAA titles or engaging in competitive online gaming, the higher base clock speed of the Dell M3RTR Processor ensures that you can enjoy an immersive and responsive gaming experience.
Smart Cache: 24 MB
The Dell M3RTR Processor is equipped with a generous 24 MB of Smart Cache, which provides significant performance benefits for users. Smart Cache is a type of memory that stores frequently accessed data closer to the processor, allowing for quicker access and improved overall system performance.
Improved Data Access
The Smart Cache of 24 MB ensures improved data access, as frequently accessed data is stored in a cache that is closer to the processor cores. This reduces the time required to fetch data from the main memory, resulting in faster execution of instructions and improved overall system responsiveness. Whether you are running applications, performing calculations, or accessing large datasets, the Smart Cache ensures that data is readily available for quick processing.
Reduced Memory Latency
By storing frequently accessed data in the Smart Cache, the processor reduces memory latency, which is the time it takes for the processor to retrieve data from the main memory. This results in faster data access and execution of instructions, minimizing delays and improving overall system performance. The reduced memory latency offered by the Smart Cache is particularly beneficial for tasks that involve frequent data access, such as gaming, multimedia editing, and scientific simulations.
Optimized Workload Distribution
The Smart Cache also plays a crucial role in workload distribution across the processor cores. As each core can access the shared cache, it allows for efficient distribution of tasks and data across cores, ensuring balanced utilization of system resources. This improves overall system performance, especially when running multi-threaded applications or workloads that require simultaneous access to large datasets.
Improved Energy Efficiency
Smart Cache also contributes to improved energy efficiency. By reducing the need to access the main memory frequently, the processor can operate more efficiently, resulting in lower power consumption. This is particularly important for users who prioritize energy efficiency or operate systems in environments where power consumption is a concern.
Upi Speed: 11.2 GT/s
The Dell M3RTR Processor features a UPI (Ultra Path Interconnect) speed of 11.2 GT/s, which enables high-speed communication between different processor sockets in multi-socket systems. The UPI speed plays a vital role in ensuring efficient data transfer and synchronization between processors, which is essential for workloads that require collaboration between multiple processors.
Seamless Multi-Processor Collaboration
The high UPI speed of 11.2 GT/s ensures seamless collaboration between multiple processors in multi-socket systems. Whether you are running parallel computing tasks, distributed databases, or virtualization workloads, the high UPI speed allows for efficient data transfer and synchronization between processors. This ensures that tasks are executed in a coordinated manner, improving overall system performance and reducing latency.
Scalability and Flexibility
The UPI speed also contributes to system scalability and flexibility. With high-speed interconnectivity between processors, users can easily scale their systems by adding additional processors or upgrading to higher-performance processors without compromising performance. This allows users to adapt their systems to evolving workloads and growing computational demands without requiring a complete overhaul of their infrastructure.
Enhanced Server Performance
In server environments, the UPI speed is particularly important for workload distribution and load balancing. With high-speed communication between processors, servers can efficiently distribute tasks across multiple processors, ensuring balanced system utilization and improved overall server performance. This is crucial for applications that require high availability and responsive performance, such as cloud computing, database management, and enterprise resource planning.
Reduced Data Transfer Latency
The high UPI speed reduces data transfer latency between processors, resulting in faster synchronization and improved system performance. This is especially important for workloads that involve frequent communication and data exchange between processors, such as scientific simulations, financial modeling, and big data analytics. The reduced data transfer latency ensures that tasks are executed efficiently and in a timely manner.
Socket Type: FCLGA4189
The Dell M3RTR Processor utilizes the FCLGA4189 socket type, which is specifically designed for the Intel Xeon Scalable processors. The socket type plays a crucial role in determining the compatibility of the processor with the motherboard, ensuring a seamless integration and optimal performance.
Compatibility and Upgradability
The FCLGA4189 socket type ensures compatibility with motherboards that support Intel Xeon Scalable processors. This allows users to easily upgrade their existing systems by simply replacing the processor while keeping the rest of the infrastructure intact. Whether you are building a new system or upgrading an existing one, the FCLGA4189 socket type offers flexibility and future-proofing.
Optimal Power Delivery
The FCLGA4189 socket type is designed to provide optimal power delivery to the processor. It ensures efficient power distribution and stability, enabling the processor to operate at its full potential without compromising performance or risking instability. This is particularly important for users who require reliable and consistent performance, such as professionals working with resource-intensive applications or running mission-critical workloads.
Robust Socket Design
The FCLGA4189 socket type features a robust design that ensures secure and reliable connectivity between the processor and the motherboard. The socket provides a tight and secure fit, minimizing the risk of loose connections or accidental disconnections. This contributes to overall system stability and longevity, ensuring that the processor operates optimally throughout its lifespan.
Scalability and Expandability
The FCLGA4189 socket type supports multi-socket configurations, allowing users to scale their systems by adding additional processors. This is particularly beneficial for server environments or high-performance computing clusters where multiple processors are required to handle demanding workloads. With support for multi-socket configurations, users can easily expand their systems as their computational needs grow, without requiring a complete overhaul of their infrastructure.
Manufacturing Technology: 10nm
The Dell M3RTR Processor is built using the advanced 10nm manufacturing technology, which offers numerous benefits in terms of performance, power efficiency, and heat dissipation. The smaller transistor size achieved through this manufacturing process allows for improved performance and reduced power consumption.
Improved Performance
The 10nm manufacturing technology enables more transistors to be packed into a smaller space, resulting in improved performance. This allows for the integration of more processing cores, cache, and other components into the processor, enhancing its overall capabilities. Users can expect faster data processing, improved multitasking capabilities, and better overall system performance compared to processors built using older manufacturing technologies.
Power Efficiency
The smaller transistor size achieved through the 10nm manufacturing technology contributes to improved power efficiency. Smaller transistors require less power to switch on and off, reducing power consumption and heat generation. This is particularly important for users who prioritize energy efficiency or operate systems in environments where power consumption and heat dissipation are concerns.
Heat Dissipation
The 10nm manufacturing technology also helps improve heat dissipation. Smaller transistors generate less heat, allowing for more efficient cooling and reducing the need for elaborate cooling solutions. This is beneficial for users who require systems with quiet operation or have limited space for cooling components.
Futuristic Technology
The 10nm manufacturing technology represents the cutting-edge of semiconductor fabrication and is considered a significant technological milestone. By choosing a processor built using this advanced technology, users can be assured that they are investing in a future-proof system that will be able to handle evolving computational demands for years to come.
Power Consumption: 185W
The Dell M3RTR Processor has a power consumption of 185W, which is an important consideration for users who prioritize energy efficiency or operate systems in environments where power consumption is a concern.
Energy Efficiency
With a power consumption of 185W, the processor is designed to provide a balance between performance and energy efficiency. It ensures that the system operates optimally while minimizing power consumption. This is particularly important for users who require long operating hours or operate systems in environments with limited power availability.
Reduced Operating Costs
The energy efficiency of the processor contributes to reduced operating costs over time. By consuming less power, the processor helps lower electricity bills, especially for users who run systems continuously or operate large-scale server environments. The reduced power consumption also results in less heat generation, reducing the need for elaborate cooling solutions and further lowering operational costs.
Environmental Considerations
Choosing a processor with lower power consumption is an environmentally responsible choice. By reducing power consumption, users can minimize their carbon footprint and contribute to a greener environment. This is particularly important for organizations and individuals who prioritize sustainability and aim to minimize their impact on the environment.
Thermal Management
The power consumption of the processor also influences thermal management considerations. Higher power consumption typically results in more heat generation, requiring more robust cooling solutions to maintain optimal operating temperatures. The 185W power consumption of the Dell M3RTR Processor strikes a balance between performance and heat generation, ensuring that the processor can operate within safe temperature limits without compromising performance or risking thermal throttling.