Dell C3GXR Intel Xeon Gold 5215 10-core 2.5GHz Processor
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Product Overview
Dell C3GXR Processor Specifications
- Manufacturer: Dell
- Type: CPU & Processor
- Model Number: C3GXR
- Series: Intel Xeon Gold 5215
Technical Features
Core and Performance
- Number of Cores: 10-core
- Base Clock Speed: 2.50 GHz
- Maximum Turbo Frequency: 3.40 GHz
- Ultrapath Interconnect (UPI) Rate: 10.4 GT/s
- UPI Links: 2
- Instruction Set: 64-bit
- Instruction Set Extensions: Intel® AVX-512
Cache Memory
- Smart Cache Size: 13.75 MB
- Manufacturing Process: 14nm
- Maximum Thermal Design Power (TDP): 85W
- Processor Socket Compatibility: FCLGA3647
Memory Specifications
Memory Capacity and Configuration
- Maximum Memory Size: 1TB (dependent on memory type)
- Supported Memory Types: DDR4-2667
- Peak Memory Speed: 2667 MHz
- Maximum Memory Channels: 6
- ECC Memory Support: Yes
Core Count: 10
The Dell Xeon Gold 5215 Processor is equipped with an impressive core count of 10. This means that the processor has 10 independent processors or execution units that can handle different tasks simultaneously. The higher the core count, the more tasks the processor can handle at once, resulting in improved multitasking and overall performance.
Enhanced Performance
With 10 cores, the Dell Xeon Gold 5215 Processor offers enhanced performance for demanding applications and workloads. Whether you're running complex simulations, rendering high-resolution graphics, or handling multiple virtual machines, the increased number of cores allows for smoother and more efficient processing.
Improved Efficiency
The higher core count also contributes to improved efficiency. By distributing tasks across multiple cores, the processor can allocate resources more effectively and reduce workload bottlenecks. This leads to faster data processing and reduced waiting times for users, resulting in increased productivity.
Parallel Processing
Another key benefit of a higher core count is the ability to perform parallel processing. With 10 cores, the processor can divide complex tasks into smaller sub-tasks and process them simultaneously, significantly reducing the overall processing time. This is particularly advantageous for tasks that can be divided into independent parts, such as video editing or scientific simulations.
High-Performance Computing
If you're involved in high-performance computing (HPC) or scientific research, the Dell Xeon Gold 5215 Processor's 10-core count is a valuable asset. HPC applications often require massive parallel processing capabilities to handle large datasets or complex computations. The higher core count allows for faster and more efficient data analysis, modeling, and simulations.
Virtualization
The 10-core count also makes the Dell Xeon Gold 5215 Processor an excellent choice for virtualization environments. Virtual machines (VMs) require dedicated resources to function optimally. With more cores, you can allocate resources to multiple VMs without compromising performance. This enables you to run more VMs simultaneously, increasing server utilization and reducing hardware costs.
Gaming and Multimedia
Gamers and multimedia enthusiasts can also benefit from the Dell Xeon Gold 5215 Processor's 10-core count. Many modern games and multimedia applications are optimized to take advantage of multiple cores. With 10 cores, you can enjoy smoother gameplay, faster video rendering, and improved overall performance.
Base Clock Speed: 2.5GHz
The base clock speed of the Dell Xeon Gold 5215 Processor is set at 2.5GHz. The base clock speed represents the frequency at which the processor operates under normal conditions without any turbo boost or overclocking. It is an essential specification to consider when evaluating a processor's performance capabilities.
Reliable Performance
A higher base clock speed ensures reliable performance across a wide range of applications and tasks. The 2.5GHz base clock speed of the Dell Xeon Gold 5215 Processor means that it can handle everyday computing tasks with ease, such as web browsing, document editing, and multimedia playback.
Quick Responsiveness
The higher the base clock speed, the quicker the processor can respond to instructions and execute tasks. A processor with a 2.5GHz base clock speed like the Dell Xeon Gold 5215 Processor can deliver snappy and responsive performance when launching applications, switching between tasks, or handling real-time processing requirements.
Efficient Multi-Threaded Processing
The base clock speed also plays a crucial role in multi-threaded processing. Multi-threading allows a processor to handle multiple tasks simultaneously by dividing them into smaller threads. The 2.5GHz base clock speed of the Dell Xeon Gold 5215 Processor ensures efficient execution of these threads, resulting in smooth multitasking and improved overall performance.
Optimized Workstations
If you're using the Dell Xeon Gold 5215 Processor for professional workstations, the 2.5GHz base clock speed ensures that your applications and workflows run smoothly. Whether you're working with large datasets, editing high-resolution videos, or running resource-intensive simulations, the processor's reliable performance at the base clock speed provides a solid foundation.
Reduced Power Consumption
One advantage of a lower base clock speed is reduced power consumption. The Dell Xeon Gold 5215 Processor's 2.5GHz base clock speed allows for efficient power usage, resulting in lower energy costs and decreased heat generation. This is particularly important in data centers or environments where power efficiency is a priority.
Overclocking Potential
The base clock speed also determines the headroom for overclocking. Overclocking refers to increasing the processor's clock speed beyond its default specifications to achieve higher performance. While the Dell Xeon Gold 5215 Processor's base clock speed is set at 2.5GHz, it may be possible to overclock it for even more processing power, provided that sufficient cooling and other considerations are taken into account.
Cache: 13.75MB
The Dell Xeon Gold 5215 Processor features a cache size of 13.75MB. The cache is a small amount of high-speed memory located on the processor itself, used to store frequently accessed data and instructions. A larger cache size can have a significant impact on the processor's performance and efficiency.
Faster Data Access
A larger cache size, such as the 13.75MB cache of the Dell Xeon Gold 5215 Processor, allows for faster data access. When the processor needs to retrieve data or instructions, it first checks the cache. If the required data is present in the cache, it can be accessed much more quickly compared to retrieving it from the main memory. This results in reduced latency and improved overall performance.
Efficient Task Execution
The cache also plays a vital role in task execution efficiency. By storing frequently accessed data and instructions, the processor can access them without having to retrieve them from the main memory every time. This reduces memory access times and allows for more efficient task execution, resulting in improved performance for a wide range of applications.
Smarter Resource Allocation
A larger cache size enables smarter resource allocation. The Dell Xeon Gold 5215 Processor's 13.75MB cache allows for a greater amount of data to be stored closer to the processor, reducing the need for frequent memory access. This results in more efficient utilization of system resources and improved overall system responsiveness.
Improving Gaming Performance
Gamers can benefit from the larger cache size of the Dell Xeon Gold 5215 Processor. Games often require quick access to textures, models, and other assets, which are stored in memory. With a larger cache, the processor can store frequently accessed game data, resulting in faster load times, smoother gameplay, and reduced stuttering or lag.
Boosting Virtualization Performance
In virtualization environments, where multiple virtual machines are running simultaneously, the cache size plays a crucial role in performance. The Dell Xeon Gold 5215 Processor's 13.75MB cache allows for efficient caching of VM-related data, reducing the need for frequent memory access. This improves overall virtualization performance and ensures smooth operation of multiple VMs.
Accelerating Content Creation
Content creators, such as video editors or 3D designers, can benefit from the larger cache size of the Dell Xeon Gold 5215 Processor. These applications often involve working with large files and complex projects that require frequent access to data. With a larger cache, the processor can store frequently accessed project files, resulting in faster rendering times and improved productivity.
Bus Speed: 10.4GT/s
The Dell Xeon Gold 5215 Processor boasts a bus speed of 10.4GT/s. The bus speed, also known as the front-side bus (FSB) speed, represents the rate at which data is transferred between the processor and other system components, such as memory, graphics cards, and storage devices. A higher bus speed can have a significant impact on overall system performance.
Faster Data Transfer
A higher bus speed allows for faster data transfer between the processor and other system components. The 10.4GT/s bus speed of the Dell Xeon Gold 5215 Processor ensures quick and efficient communication with components like memory modules, resulting in reduced latency and improved overall system responsiveness.
Optimized Memory Performance
The bus speed also affects memory performance. With a higher bus speed, the processor can access system memory more quickly, resulting in improved memory bandwidth and overall memory performance. This is particularly important for memory-intensive tasks like gaming, content creation, and scientific simulations.
Enhanced Graphics Performance
Graphics-intensive applications, such as gaming or professional 3D rendering, can benefit from the higher bus speed of the Dell Xeon Gold 5215 Processor. The faster data transfer rate allows for quicker communication between the processor and graphics card, resulting in improved graphics performance, smoother frame rates, and more realistic visuals.
Accelerating Data-Intensive Workloads
For users dealing with data-intensive workloads, such as big data analytics or database management, the Dell Xeon Gold 5215 Processor's 10.4GT/s bus speed ensures efficient data transfer between the processor and storage devices. This results in faster data retrieval and processing, reducing the time required for complex data analysis and improving overall productivity.
Improving Virtualization Efficiency
In virtualization environments, where multiple virtual machines are running concurrently, a higher bus speed is crucial for efficient communication between the processor and virtualized resources. The Dell Xeon Gold 5215 Processor's 10.4GT/s bus speed allows for smooth operation of multiple VMs, ensuring optimal performance and responsiveness.
Reducing I/O Bottlenecks
A higher bus speed helps reduce I/O (input/output) bottlenecks by facilitating faster communication with peripheral devices. Whether you're transferring large files to external storage devices or connecting high-speed network interfaces, the Dell Xeon Gold 5215 Processor's 10.4GT/s bus speed ensures smooth and efficient data transfer, minimizing delays and maximizing productivity.
Manufacturing Technology: 14nm
The Dell Xeon Gold 5215 Processor is manufactured using a 14nm (nanometer) process technology. The manufacturing technology refers to the size of the transistors on the processor chip. A smaller manufacturing technology provides several advantages in terms of performance, power consumption, and efficiency.
Improved Performance
Smaller transistors allow for more transistors to be packed onto the processor chip, resulting in increased processing power. The 14nm manufacturing technology of the Dell Xeon Gold 5215 Processor enables more complex circuitry and a higher density of transistors, leading to improved performance for a wide range of applications and workloads.
Lower Power Consumption
One of the primary benefits of a smaller manufacturing technology is reduced power consumption. Smaller transistors require less energy to switch on and off, resulting in lower power requirements for the processor. The Dell Xeon Gold 5215 Processor's 14nm manufacturing technology ensures efficient power usage, resulting in reduced energy costs and decreased heat generation.
Increased Energy Efficiency
The 14nm manufacturing technology also contributes to increased energy efficiency. Smaller transistors improve the overall efficiency of the processor by reducing leakage current and minimizing wasted energy. The Dell Xeon Gold 5215 Processor's 14nm technology allows for optimal energy utilization, making it an excellent choice for environmentally conscious users or organizations focused on reducing their carbon footprint.
Enhanced Thermal Management
A smaller manufacturing technology results in a smaller processor die size, which translates to improved thermal management. The Dell Xeon Gold 5215 Processor's 14nm manufacturing technology enables efficient heat dissipation, reducing the risk of overheating and ensuring stable performance even under heavy workloads. This is particularly important for high-performance computing or server applications where reliable operation is critical.
Future-Proofing
Opting for a processor with a smaller manufacturing technology like the Dell Xeon Gold 5215 Processor ensures future-proofing to some extent. As manufacturing technology advances, chip manufacturers can continue to pack more transistors onto the same-sized die, resulting in even more powerful processors. The 14nm technology of the Dell Xeon Gold 5215 Processor positions it well for compatibility with future software and technologies.
Compatibility with Existing Systems
The Dell Xeon Gold 5215 Processor's 14nm manufacturing technology ensures compatibility with existing systems and infrastructure. Many software applications and hardware components are optimized to work with processors manufactured using similar or smaller process technologies. Choosing a processor with a 14nm manufacturing technology allows for seamless integration and ensures that your system is ready for current and future software requirements.
Power Consumption: 85W
The Dell Xeon Gold 5215 Processor has a power consumption rating of 85W. Power consumption refers to the amount of electrical power consumed by the processor during normal operation. Understanding power consumption is crucial for managing energy costs, system cooling, and overall system stability.
Energy Efficiency
A lower power consumption rating, such as the 85W of the Dell Xeon Gold 5215 Processor, indicates higher energy efficiency. Energy-efficient processors consume less power, resulting in reduced energy costs and a smaller environmental footprint. This makes the processor an excellent choice for users or organizations looking to optimize power usage and reduce their carbon footprint.
Cooling Requirements
The power consumption rating also affects the cooling requirements of the system. Higher power consumption generates more heat, requiring more robust cooling solutions to maintain optimal operating temperatures. The Dell Xeon Gold 5215 Processor's 85W power consumption rating ensures that it can be efficiently cooled using standard cooling solutions, reducing the need for specialized cooling systems and associated costs.
Compatibility with Power Supplies
Power supplies have specific power delivery capabilities, typically measured in watts. The 85W power consumption of the Dell Xeon Gold 5215 Processor ensures compatibility with a wide range of power supplies commonly found in desktop computers and servers. This makes it easier to integrate the processor into existing systems without the need for upgrading power supply units.
Reduced Operating Costs
Lower power consumption directly translates to reduced operating costs. Whether you're running a single system or managing multiple servers in a data center, the Dell Xeon Gold 5215 Processor's 85W power consumption enables significant savings on electricity bills. Over time, these savings can add up, resulting in a more cost-effective computing solution.
Green Computing Initiatives
The Dell Xeon Gold 5215 Processor's low power consumption aligns with green computing initiatives. Green computing aims to minimize the environmental impact of computing technologies by optimizing energy efficiency and reducing electronic waste. By choosing a processor with an 85W power consumption, you're contributing to a more sustainable computing ecosystem.
Reliable Operation
The 85W power consumption rating of the Dell Xeon Gold 5215 Processor ensures reliable operation under normal conditions. The processor is designed to operate within its specified power envelope, providing stable performance without compromising system stability or reliability. This is particularly important for mission-critical applications or server environments where uninterrupted operation is essential.
Part Number: C3GXR
The Dell Xeon Gold 5215 Processor is identified by the part number C3GXR. The part number serves as a unique identifier for the processor and is essential for compatibility, ordering, and reference purposes. Understanding the importance of the part number can help ensure that you select the correct processor for your specific requirements.
Compatibility Verification
When selecting a processor, verifying compatibility with your system is crucial. The part number