Dell 338-CFEQ EPYC 64-Core CPU, 2.2 GHz, 768MB L3 Cache, Socket Sp3, 280w
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Product Overview of Dell 338-CFEQ EPYC Processor
General Specifications
- Brand: Dell
- Manufacturer Part Number: 338-CFEQ
- Model: Epyc 7773x
- Type: Server Processor
Extended Details
Processor Features
- Core Count: 64-core
- Base Clock Speed: 2.2 GHz
- Maximum Boost Clock: Up to 3.5 GHz
Cache Memory Specifications
- L3 Cache: 768 MB
Power and Thermal Management
- Maximum Thermal Design Power (TDP): 280 W
- Supported Processor Socket: SP3
Compatibility and Usage
- Designed for high-performance server environments
- Ideal for data-intensive applications and workloads
- Enhances processing capabilities in multi-threaded scenarios
Clock Speed: 2.2 GHz
The clock speed of a CPU is one of the most important factors to consider when choosing a processor for your computer. It determines how quickly the CPU can execute instructions and perform calculations. In the case of the Dell EPYC 64-Core CPU, the clock speed is an impressive 2.2 GHz.
Improved Performance
A higher clock speed means that the CPU can process more instructions per second, resulting in improved overall performance. This is especially beneficial for tasks that require a lot of processing power, such as video editing, 3D rendering, and gaming. With a clock speed of 2.2 GHz, the Dell EPYC CPU can handle these demanding tasks with ease.
Smooth Multitasking
Multitasking is a common requirement for many users, whether it's running multiple applications simultaneously or handling several resource-intensive tasks at once. A higher clock speed allows the CPU to efficiently divide its processing power among different tasks, ensuring smooth and seamless multitasking. With a clock speed of 2.2 GHz, the Dell EPYC CPU can effortlessly handle multitasking scenarios without any noticeable slowdowns or lag.
Faster Data Processing
In addition to improving overall performance, a higher clock speed also leads to faster data processing. This is particularly important for applications that involve large data sets or complex calculations, such as scientific simulations or financial modeling. With a clock speed of 2.2 GHz, the Dell EPYC CPU can process data at an accelerated rate, reducing processing times and improving productivity.
Efficient Resource Utilization
A higher clock speed enables more efficient resource utilization within the CPU. It allows the processor to complete tasks more quickly and move on to the next one, minimizing idle time and maximizing productivity. This efficient resource utilization translates into faster response times and smoother user experiences, making the Dell EPYC CPU an excellent choice for both personal and professional use.
Optimized Gaming Performance
For gamers, a higher clock speed is crucial for achieving smooth gameplay and maximizing frame rates. With a clock speed of 2.2 GHz, the Dell EPYC CPU ensures that even the most demanding games can be played without any performance hiccups. Whether you're playing graphically intensive AAA titles or engaging in competitive online gaming, this CPU will deliver the power and speed needed for an immersive gaming experience.
L3 Cache: 768MB
The L3 cache is a vital component of modern CPUs that helps improve their performance by providing faster access to frequently used data. In the case of the Dell EPYC 64-Core CPU, it boasts an impressive L3 cache size of 768MB.
Enhanced Data Retrieval
The larger the L3 cache size, the more data the CPU can store closer to itself, resulting in faster retrieval times. This is particularly beneficial for applications that require frequent access to large datasets or complex calculations. With a substantial L3 cache size of 768MB, the Dell EPYC CPU can retrieve data quickly, reducing latency and improving overall performance.
Improved Responsiveness
A larger L3 cache allows the CPU to store more instructions and data closer to the processing cores, enabling quicker retrieval and execution. This improved responsiveness is especially noticeable in tasks that heavily rely on repetitive calculations or frequent data access, such as video editing, image processing, and scientific simulations. With its generous 768MB L3 cache, the Dell EPYC CPU ensures that these tasks are handled with optimal speed and efficiency.
Better Workload Distribution
In multi-threaded applications or scenarios where multiple tasks are running simultaneously, a larger L3 cache helps distribute the workload more efficiently. It allows the CPU cores to access shared data quickly, reducing dependencies and potential bottlenecks. With a 768MB L3 cache, the Dell EPYC CPU can ensure smooth and efficient workload distribution, resulting in improved overall system performance.
Seamless Virtualization
Virtualization has become an essential technology for many users, enabling them to run multiple operating systems or virtual machines on a single physical machine. A larger L3 cache is particularly beneficial for virtualized environments as it allows for faster data retrieval and better resource allocation among virtual machines. With its generous 768MB L3 cache, the Dell EPYC CPU is well-suited for virtualization scenarios, providing seamless performance and reliable resource management.
Boosted Gaming Experience
The L3 cache also plays a crucial role in gaming performance, as it facilitates quicker access to frequently used game assets and instructions. With its substantial 768MB L3 cache, the Dell EPYC CPU ensures that game data is readily available for the GPU, minimizing loading times and maximizing frame rates. Whether you're playing graphically demanding games or engaging in virtual reality experiences, this CPU's large L3 cache will contribute to an immersive and smooth gaming experience.
Socket Type: Sp3
The socket type of a CPU determines its compatibility with specific motherboards. In the case of the Dell EPYC 64-Core CPU, it utilizes the Sp3 socket type.
Wide Motherboard Compatibility
The Sp3 socket type is widely supported by various motherboard manufacturers, ensuring compatibility with a wide range of motherboards. This versatility allows users to choose from a diverse selection of motherboards that best suit their specific requirements and budget. Whether you're building a high-end workstation or a server-grade system, the Dell EPYC CPU's Sp3 socket type provides ample options for motherboard selection.
Scalability and Future-Proofing
The Sp3 socket type supports multi-socket configurations, meaning you can install multiple CPUs on a single motherboard. This scalability is particularly beneficial for users who require high-performance computing or plan to expand their system's capabilities in the future. With the Dell EPYC CPU's Sp3 socket type, you have the flexibility to scale your system's processing power to meet evolving needs without having to replace the entire motherboard.
Enterprise-Grade Reliability
The Sp3 socket type is commonly found in enterprise-grade systems and server environments, where reliability and stability are paramount. By choosing a CPU with the Sp3 socket type, such as the Dell EPYC CPU, you can benefit from the same level of reliability and stability that is expected in mission-critical applications. This makes it an ideal choice for businesses or individuals who require a robust and dependable computing solution.
Efficient Power Management
The Sp3 socket type is designed to ensure efficient power management for high-performance CPUs. It incorporates advanced power delivery mechanisms that help regulate power consumption and prevent overheating. With the Dell EPYC CPU's Sp3 socket type, you can expect optimal power efficiency and thermal performance, allowing your system to operate reliably under demanding workloads without compromising on energy consumption.
ECC Memory Support
Error-correcting code (ECC) memory is a crucial feature for applications that demand high data integrity, such as scientific simulations, financial modeling, or enterprise-level database management. The Sp3 socket type supports ECC memory, enabling users to take advantage of this error-detecting and correcting technology. By pairing the Dell EPYC CPU with ECC memory, you can ensure data accuracy and protect against potential errors or data corruption.
Power Consumption: 280w
Power consumption is an important consideration when selecting a CPU, as it directly impacts energy efficiency and operating costs. The Dell EPYC 64-Core CPU has a power consumption rating of 280w.
Energy Efficiency
Efficient power consumption is becoming increasingly important in today's world, where energy costs are rising and environmental concerns are growing. The Dell EPYC CPU's power consumption of 280w strikes a balance between high-performance computing and energy efficiency. It ensures that your system operates at optimal power levels, minimizing unnecessary energy consumption and reducing your carbon footprint.
Lower Operating Costs
By choosing a CPU with lower power consumption, such as the Dell EPYC CPU, you can significantly reduce your operating costs over time. The lower power requirements translate into lower electricity bills, especially in scenarios where the CPU is under heavy load for extended periods. This cost-saving benefit makes the Dell EPYC CPU an attractive option for businesses or individuals looking to maximize their computing performance while keeping operating expenses in check.
Cool and Quiet Operation
High power consumption often leads to increased heat generation, which can result in noisy cooling systems or even thermal throttling. The Dell EPYC CPU's power consumption of 280w ensures that it operates at manageable temperatures, minimizing the need for excessive cooling and maintaining a quiet computing environment. Whether you're working in a home office or running a data center, this CPU's efficient power consumption contributes to a pleasant and distraction-free working environment.
Sustainable Computing
Reducing energy consumption is not only beneficial for cost savings but also for sustainability efforts. By opting for a CPU with lower power consumption, such as the Dell EPYC CPU, you contribute to reducing overall energy demand and carbon emissions. This sustainable computing choice aligns with modern environmental initiatives and demonstrates your commitment to minimizing your ecological footprint.
Reliable Performance
Power consumption affects not only energy efficiency but also the stability and reliability of a CPU. The Dell EPYC CPU's power consumption of 280w ensures that it operates within its specified thermal limits, preventing overheating and potential performance degradation. With reliable and stable performance, you can confidently rely on this CPU for demanding workloads or critical applications, knowing that it will consistently deliver optimal results without compromising on quality or stability.