Dell 9JW14 Xeon Silver 4110 8-Core 2.1GHz Processor 11MB L3 Cache
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Product Specifications
Key Features
- Brand: Dell
- Processor Type: Server Processor
- Part Number: 9JW14
- Model: Silver 4110
Core Specifications
- Core Count: 8-core Processor
- Base Clock Speed: 2.10 GHz
- Max Turbo Frequency: 3.00 GHz
- Ultrapath Interconnect (UPI) Speed: 9.6 GT/s
- UPI Links: 2
Supported Instruction Sets
- Instruction Set: 64-bit
- Instruction Set Extensions:
- Intel® SSE4.2
- Intel® AVX
- Intel® AVX2
- Intel® AVX-512
Cache and Lithography
- L3 Cache: 11MB
- Process Technology: 14nm
Thermal Specifications
- Max TDP (Thermal Design Power): 85W
Memory Specifications
- Maximum Memory Capacity: 768GB (dependent on memory type)
- Supported Memory Types: DDR4-2400
- Maximum Memory Speed: 2.40 GHz
- Maximum Number of Memory Channels: 6
- ECC Memory Support: Yes
Compatibility
- Compatible Processor Socket: FCLGA3647
Cores
The Dell 9JW14 Processor is equipped with 8 cores, making it a powerful option for users who require high-performance computing capabilities. Having multiple cores allows the processor to handle multiple tasks simultaneously, resulting in improved multitasking and faster processing speeds. Whether you are a gamer, a content creator, or a professional working on complex projects, the 8 cores of this processor ensure that you can handle demanding tasks with ease.
1. Enhanced Multitasking
With 8 cores, the Dell 9JW14 Processor enables efficient multitasking. You can run multiple applications simultaneously without experiencing any lag or performance issues. Whether you are editing videos, streaming content, or running resource-intensive software, the processor's cores ensure that each task gets the necessary resources and attention, resulting in a smooth and seamless user experience.
2. Improved Performance
The 8 cores of this processor significantly enhance its overall performance. Each core is capable of executing its own set of instructions independently, allowing for parallel processing. This means that tasks can be divided among the cores, resulting in faster execution times. Whether you are rendering complex graphics or running data-intensive simulations, the Dell 9JW14 Processor's 8 cores ensure that you can complete tasks quickly and efficiently.
2.1 Gaming Performance
Gamers can benefit greatly from the 8 cores of this processor. Many modern games are designed to take advantage of multiple cores, allowing for better graphics, higher frame rates, and smoother gameplay. The Dell 9JW14 Processor's 8 cores ensure that you can play the latest games without experiencing any performance bottlenecks.
2.2 Content Creation
Content creators often work with demanding software such as video editing tools and 3D modeling applications. These applications require significant processing power to handle complex tasks efficiently. The 8 cores of the Dell 9JW14 Processor provide content creators with the performance they need to edit high-resolution videos, render realistic animations, and manipulate complex designs without any slowdowns.
2.2.1 Video Editing
Video editing is a resource-intensive task that can benefit greatly from a processor with multiple cores. The Dell 9JW14 Processor's 8 cores ensure smooth playback, quick rendering, and efficient editing, allowing video editors to work with high-quality footage without any performance limitations.
2.2.2 3D Modeling and Rendering
3D modeling and rendering require significant computational power, especially when working with complex scenes and detailed textures. The 8 cores of this processor enable faster rendering times, allowing for quicker feedback and iteration during the creation process. Whether you are designing architectural visualizations or creating lifelike character models, the Dell 9JW14 Processor's 8 cores ensure that you can work efficiently and effectively.
Base Clock Speed
The Dell 9JW14 Processor features a base clock speed of 2.1GHz. The base clock speed represents the frequency at which the processor operates under normal conditions without any overclocking. While it may not be the highest clock speed available on the market, it offers several benefits and is perfectly suited for a wide range of applications.
1. Energy Efficiency
The lower base clock speed of 2.1GHz allows the Dell 9JW14 Processor to operate at a lower power consumption level compared to processors with higher clock speeds. This results in improved energy efficiency, which is particularly important for users who prioritize minimizing their carbon footprint or reducing electricity costs. The processor strikes a balance between performance and power consumption, making it an ideal choice for users who value energy efficiency.
2. Thermal Performance
The base clock speed of 2.1GHz also contributes to the processor's thermal performance. Lower clock speeds generate less heat, which means that the processor can maintain lower operating temperatures even during intensive tasks. This is particularly beneficial for users who engage in prolonged computing sessions or run resource-intensive applications for extended periods. The Dell 9JW14 Processor's base clock speed ensures that it can handle demanding tasks without overheating, resulting in a stable and reliable performance.
2.1 Extended Lifespan
The lower operating temperatures resulting from the 2.1GHz base clock speed can contribute to the longevity of the processor. Higher temperatures can degrade the internal components of a processor over time, shortening its lifespan. By operating at lower temperatures, the Dell 9JW14 Processor can maintain its performance and reliability over an extended period, ensuring that it remains a capable and efficient option for years to come.
2.2 Noise Reduction
Another advantage of lower operating temperatures is reduced fan noise. Processors with higher clock speeds often require more aggressive cooling solutions to dissipate the heat generated during operation. These cooling solutions can result in louder fan noise, which can be distracting for users, especially in quiet environments. The Dell 9JW14 Processor's base clock speed of 2.1GHz allows for quieter operation, ensuring a more pleasant computing experience.
2.2.1 Home Theater PCs
If you plan on using the Dell 9JW14 Processor in a home theater PC setup, the lower base clock speed can be particularly advantageous. Home theater PCs are often located in living rooms or entertainment areas where noise levels need to be kept to a minimum. The processor's lower operating temperatures and reduced fan noise make it an excellent choice for such setups, allowing you to enjoy movies, TV shows, and music without any distracting background noise.
2.2.2 Office Environments
In office environments where multiple computers are present in a shared space, noise reduction becomes a crucial factor. The lower operating temperatures and quieter operation of the Dell 9JW14 Processor make it an ideal choice for office desktops, ensuring that employees can work without being disturbed by excessive fan noise.
Cache
The Dell 9JW14 Processor boasts an 11MB L3 cache. The cache is a small but incredibly fast memory storage unit integrated into the processor itself. It plays a vital role in improving overall system performance by reducing memory latency and enhancing data retrieval speeds.
1. Reduced Memory Latency
The presence of an 11MB L3 cache significantly reduces memory latency. When the processor needs to access data, it can retrieve it directly from the cache instead of accessing the slower main memory. This results in faster data retrieval times and improved overall system responsiveness. Whether you are launching applications, loading large files, or navigating through complex websites, the Dell 9JW14 Processor's cache ensures that data is readily available, reducing waiting times and enhancing your productivity.
2. Accelerated Data Processing
The 11MB L3 cache acts as a temporary storage space for frequently accessed data and instructions. By keeping this data close to the processor cores, the cache enables faster data processing. This is particularly beneficial for tasks that involve repeated calculations or access to the same set of data, such as video editing, 3D rendering, and scientific simulations. The Dell 9JW14 Processor's cache enhances its ability to handle these tasks efficiently, resulting in shorter processing times and improved overall performance.
2.1 Seamless Multitasking
The cache also plays a crucial role in enabling seamless multitasking. As you switch between applications or perform multiple tasks simultaneously, the cache stores relevant data and instructions, allowing for quick retrieval when needed. This reduces the need for the processor to constantly access the main memory, resulting in smoother multitasking and improved system stability. Whether you are working on a complex project or simply browsing the web while running resource-intensive software, the Dell 9JW14 Processor's cache ensures that you can switch between tasks effortlessly.
2.2 Gaming Performance
Gamers can benefit greatly from the Dell 9JW14 Processor's cache. Many modern games require quick access to game assets, textures, and instructions. The cache ensures that these resources are readily available, reducing loading times and improving overall gaming performance. Whether you are exploring vast open-world environments or engaging in fast-paced multiplayer battles, the processor's cache enhances your gaming experience by minimizing lag and stuttering.
2.2.1 Open-World Games
Open-world games often require seamless streaming of game assets to provide a smooth and immersive experience. The Dell 9JW14 Processor's cache ensures that these assets are readily available, reducing pop-in issues and allowing for a more immersive gameplay experience.
2.2.2 Multiplayer Games
In multiplayer games, quick access to game data is crucial to maintaining a competitive edge. The cache of the Dell 9JW14 Processor ensures that game assets and instructions are readily available, reducing latency and enabling faster reaction times. Whether you are engaging in intense FPS battles or coordinating strategies in a real-time strategy game, the processor's cache helps ensure a smooth and responsive gaming experience.
Upi Speed
The Dell 9JW14 Processor features a Upi Speed of 9.6GT/s (Giga Transfers per second). UPI stands for "Ultra Path Interconnect" and represents the speed at which data can be transferred between multiple processors or processor sockets within a system. The Upi Speed is an important factor to consider for users who require high-performance computing systems or plan to build multi-processor configurations.
1. Scalability
The Upi Speed of 9.6GT/s ensures that the Dell 9JW14 Processor can effectively scale in multi-processor configurations. Whether you are building a workstation for complex simulations, a server for data processing, or a high-performance gaming rig, the processor's Upi Speed enables efficient communication between multiple processors or processor sockets, ensuring optimal performance and scalability.
2. High-Performance Computing
The Upi Speed is particularly crucial for users who require high-performance computing capabilities, such as researchers, scientists, and engineers. These professionals often work with applications that can benefit from parallel processing and distribute tasks across multiple processors. The Dell 9JW14 Processor's Upi Speed ensures that data can be efficiently shared and processed between processors, enabling faster computations and reducing overall processing times.
2.1 Scientific Simulations
Scientific simulations often involve complex calculations that require significant computational power. By utilizing multiple processors with high Upi Speeds, researchers can accelerate these simulations and obtain results more quickly. The Dell 9JW14 Processor's Upi Speed of 9.6GT/s facilitates efficient data exchange between processors, enabling faster simulations and enhancing overall productivity.
2.2 Data Analysis
Data analysis tasks, such as big data processing or machine learning algorithms, can greatly benefit from multi-processor configurations. The Dell 9JW14 Processor's Upi Speed ensures that data can be efficiently distributed across multiple processors, enabling faster analysis and reducing the time required to extract valuable insights from large datasets.
2.2.1 Machine Learning
Machine learning algorithms often involve training complex models using vast amounts of data. The Dell 9JW14 Processor's Upi Speed facilitates efficient data distribution between processors, allowing for faster model training and improved overall performance. Whether you are developing artificial intelligence systems or training deep neural networks, the processor's Upi Speed ensures that you can process large datasets efficiently.
2.2.2 Big Data Processing
Processing large volumes of data is a common task in industries such as finance, healthcare, and e-commerce. The Dell 9JW14 Processor's Upi Speed enables efficient data distribution and parallel processing, enabling organizations to analyze vast amounts of data more quickly and derive actionable insights in a shorter amount of time.
Socket
The Dell 9JW14 Processor features an FCLGA-3647 socket. The socket represents the physical interface between the processor and the motherboard, ensuring compatibility and facilitating communication between the two components. The choice of socket is essential when selecting a processor, as it determines the motherboard options available for your system.
1. Compatibility
The FCLGA-3647 socket ensures compatibility with motherboards specifically designed to support this socket type. When selecting a processor for your system, it is crucial to ensure that the socket type matches the socket on the motherboard. The Dell 9JW14 Processor's FCLGA-3647 socket guarantees that it can be seamlessly integrated into compatible systems, providing a hassle-free upgrade or build experience.
2. Future Upgradeability
The choice of socket can also impact future upgrade options. By selecting a processor with a widely supported socket, such as the FCLGA-3647, you can ensure that your system remains upgradeable in the future. This allows you to extend the lifespan of your system by simply replacing the processor without having to replace the entire motherboard.
2.1 Server Configurations
The FCLGA-3647 socket is commonly used in server configurations due to its ability to support high-performance processors and facilitate efficient communication between multiple components. Servers are often designed with scalability and expandability in mind, and the FCLGA-3647 socket ensures that the Dell 9JW14 Processor can be easily integrated into these environments, providing powerful processing capabilities for demanding server workloads.
2.2 Workstations
Workstations that require high-performance computing capabilities can also benefit from the FCLGA-3647 socket. Whether you are working with complex simulations, running resource-intensive software, or handling large datasets, the Dell 9JW14 Processor's socket ensures compatibility with workstation motherboards designed to support professional-grade components.
2.2.1 Professional Content Creation
Professional content creators often rely on workstations for their demanding tasks. Whether you are editing high-resolution videos, rendering 3D animations, or working with complex visual effects, the Dell 9JW14 Processor's FCLGA-3647 socket ensures that you can build a workstation capable of handling these tasks with ease.
2.2.2 CAD/CAM Applications
CAD (Computer-Aided Design) and CAM (Computer-Aided Manufacturing) applications require powerful hardware to handle complex designs and simulations. By selecting a processor with the FCLGA-3647 socket, professionals in the architecture, engineering, and manufacturing industries can build workstations that provide the performance and reliability needed for their projects.
Nm Technology
The Dell 9JW14 Processor utilizes 14nm (nanometer) technology. The nm technology represents the size of the transistors integrated into the processor. A smaller nm value indicates a more advanced manufacturing process, resulting in several benefits for users.
1. Improved Energy Efficiency
The 14nm technology used in the Dell 9JW14 Processor contributes to its improved energy efficiency. Smaller transistors require less power to operate compared to larger transistors, resulting in reduced energy consumption. This is particularly important for users who prioritize energy efficiency or seek to reduce their electricity costs without compromising on performance.
2. Higher Performance
The 14nm technology also allows for higher transistor densities, which translates into more transistors packed within a given area. This increased transistor density enables processors to offer higher performance within the same physical footprint. The Dell 9JW14 Processor's 14nm technology ensures that you can enjoy high-performance computing without sacrificing space or generating excessive heat.
2.1 Overclocking Potential
Users who are interested in overclocking their processors can benefit from the 14nm technology used in the Dell 9JW14 Processor. Smaller transistors generally offer better thermal characteristics, allowing for higher clock speeds and increased overclocking potential. While overclocking does come with its own considerations and risks, the 14nm technology provides a solid foundation for users who wish to push the processor beyond its default specifications.