AMD EPYC 16-Core CPU Dell with 256MB L3 Cache and 3.5 GHz Socket 3434N
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Product Overview of Dell AMD EPYC 3434N Processor
General Specifications
- Brand Name: Dell
- Manufacturer Part Number: 3434N
- Model: AMD EPYC 73F3
- Type: Server Processor
Technical Specifications
Processor Details
- Core Count: 16-core
- Base Clock Speed: 3.5 GHz
- Maximum Boost Clock: Up to 4.0 GHz
Cache Memory
- L3 Cache Size: 256 MB
- Manufacturing Process: 7nm
- Maximum Thermal Design Power (TDP): 240W
- Supported Processor Socket: SP3
Key Features
Performance Characteristics
- Exceptional multi-threading capabilities with 16 cores.
- High clock speeds for demanding applications.
- Efficient thermal management with a TDP of 240W.
Cache and Efficiency
- Ample L3 cache of 256 MB enhances data access speed.
- Utilizes a 7nm lithography for improved performance per watt.
Compatibility and Integration
Socket Compatibility
- Designed for SP3 socket for seamless integration into existing server systems.
- Ideal for data centers and enterprise applications.
Cores: 16
Improved Performance and Multitasking Capabilities
The AMD EPYC 73F3 CPU is equipped with an impressive 16 cores, making it an ideal choice for users who require high-performance computing capabilities. With each core capable of executing multiple tasks simultaneously, users can experience improved performance and faster processing times. Whether you are running complex simulations, handling large datasets, or running multiple applications simultaneously, the 16 cores of the AMD EPYC 73F3 CPU ensure smooth multitasking without any compromise on performance.
Efficient Resource Allocation
Having 16 cores allows for efficient resource allocation within the CPU. Each core can be assigned specific tasks, ensuring that workloads are evenly distributed and executed in parallel. This efficient resource allocation minimizes bottlenecks and maximizes the utilization of available computing power, resulting in faster data processing and reduced wait times.
Scalability for Future Growth
The 16 cores of the AMD EPYC 73F3 CPU provide a high level of scalability, allowing users to handle increasing workloads and data-intensive applications. As technology advances and demands grow, having a CPU with a higher number of cores ensures that your system remains capable of handling future requirements without the need for significant hardware upgrades.
Parallel Processing
With 16 cores, the AMD EPYC 73F3 CPU excels at parallel processing tasks. Parallel processing involves dividing complex computations into smaller tasks that can be executed simultaneously across multiple cores. This capability is particularly beneficial for applications such as scientific simulations, video rendering, and data analysis, where large amounts of data need to be processed quickly.
Virtualization Performance
Virtualization relies heavily on the CPU's ability to handle multiple virtual machines efficiently. With 16 cores, the AMD EPYC 73F3 CPU can handle a significant number of virtual machines simultaneously, ensuring smooth and responsive performance. Whether you are running virtualized servers or deploying virtual desktop infrastructure (VDI), the 16 cores of this CPU guarantee optimal virtualization performance.
Software Development and Compilation
For software developers, having 16 cores can significantly reduce the time required for compiling code. The compilation process involves translating source code into machine code, which can be a time-consuming task for large projects. With the AMD EPYC 73F3 CPU's 16 cores, software developers can enjoy faster code compilation, leading to increased productivity and shorter development cycles.
Server Workloads
The 16 cores of the AMD EPYC 73F3 CPU make it an excellent choice for server workloads. Servers often handle multiple tasks simultaneously, such as website hosting, database management, and virtualization. The high core count allows the CPU to efficiently handle these workloads, ensuring smooth operation and minimal downtime.
Gaming and Content Creation
Gamers and content creators can also benefit from the 16 cores of the AMD EPYC 73F3 CPU. Modern games and multimedia applications are becoming increasingly demanding, requiring powerful CPUs to deliver smooth gameplay and fast rendering times. With 16 cores, this CPU can handle the most demanding games and resource-intensive content creation tasks without breaking a sweat.
Cache: 256MB L3
Rapid Data Access
The AMD EPYC 73F3 CPU features an impressive 256MB L3 cache, providing rapid access to frequently used data. The cache acts as a temporary storage area for data that the CPU needs to access frequently. With a larger cache size, more data can be stored closer to the CPU cores, reducing the time required to fetch data from main memory. This results in improved overall system performance and reduced latency.
Faster Program Execution
The large 256MB L3 cache of the AMD EPYC 73F3 CPU allows for faster program execution. When an application is running, it often accesses the same data repeatedly. With a larger cache, the CPU can store a significant portion of this data, eliminating the need to fetch it from slower memory locations. This reduces the time required for the CPU to access data, resulting in faster program execution and improved user experience.
Enhanced Gaming Performance
For gamers, the 256MB L3 cache of the AMD EPYC 73F3 CPU can significantly enhance gaming performance. Games often rely on fast data access to load textures, models, and other assets quickly. With a larger cache, the CPU can store more of these assets, reducing load times and improving in-game performance. Gamers can enjoy smoother gameplay with reduced stuttering and faster loading times.
Improved Virtual Machine Performance
Virtual machines heavily rely on fast data access to provide a responsive and smooth user experience. The 256MB L3 cache of the AMD EPYC 73F3 CPU ensures that virtual machines have quick access to frequently used data, minimizing latency and improving overall performance. Whether you are running virtualized servers or using virtual machines for development or testing purposes, the large cache size guarantees optimal performance.
Efficient Database Operations
Databases often require rapid access to frequently accessed data for efficient query execution. The large 256MB L3 cache of the AMD EPYC 73F3 CPU allows databases to store more data closer to the CPU cores, reducing the time required to fetch data from disk or main memory. This results in faster database operations, quicker response times, and improved overall database performance.
Content Creation and Video Editing
Content creators and video editors can benefit greatly from the 256MB L3 cache of the AMD EPYC 73F3 CPU. When working with large multimedia files, fast data access is crucial to ensure smooth video playback and faster rendering times. With a larger cache, the CPU can store more frames, clips, and effects, reducing the time required for data retrieval and improving overall content creation workflow.
Big Data and Analytics
The AMD EPYC 73F3 CPU's large 256MB L3 cache is particularly advantageous for big data and analytics workloads. These tasks often involve processing large datasets and performing complex calculations. With a larger cache, the CPU can store more intermediate results and frequently accessed data, reducing the need to access slower storage devices. This leads to faster data processing, quicker insights, and improved overall analytical performance.
Server-Side Caching
Server applications can benefit from the large 256MB L3 cache of the AMD EPYC 73F3 CPU through server-side caching. By caching frequently accessed data in the CPU cache, servers can reduce the time required to fetch data from slower storage devices or databases. This results in faster response times for clients accessing server resources, leading to improved user experience and increased server efficiency.
Speed: 3.5 GHz
High Clock Frequency
The AMD EPYC 73F3 CPU boasts a clock frequency of 3.5 GHz, ensuring high-speed processing capabilities. Clock frequency determines how many instructions a CPU can execute per second. With a higher clock frequency, the CPU can perform more calculations in less time, resulting in faster overall system performance.
Improved Single-Threaded Performance
Single-threaded applications rely on a single core for execution. With a clock frequency of 3.5 GHz, the AMD EPYC 73F3 CPU delivers excellent single-threaded performance. This is particularly important for applications that are not optimized for multi-threading or for tasks that cannot be parallelized. Users can enjoy faster execution times for single-threaded applications, leading to improved productivity and responsiveness.
Smooth Multi-Threaded Performance
Multi-threaded applications can take advantage of the high clock frequency of the AMD EPYC 73F3 CPU to deliver smooth performance. With each core operating at 3.5 GHz, users can expect efficient multi-threaded processing, allowing for faster execution of highly threaded applications. Whether you are running virtual machines, compiling code, or performing simulations, the high-speed processing capabilities ensure a smooth and responsive computing experience.
Efficient Gaming Performance
For gamers, the 3.5 GHz clock frequency of the AMD EPYC 73F3 CPU translates into improved gaming performance. Games often rely heavily on single-threaded performance, and a higher clock frequency ensures smoother gameplay with faster frame rates. Gamers can enjoy more immersive gaming experiences with reduced lag and improved responsiveness.
Responsive Virtual Desktop Infrastructure (VDI)
Virtual desktop infrastructure (VDI) relies on efficient CPU performance to deliver a responsive user experience. With a clock frequency of 3.5 GHz, the AMD EPYC 73F3 CPU ensures fast response times when accessing virtual desktops, launching applications, and performing tasks within virtualized environments. Users can enjoy a seamless and fluid VDI experience without any noticeable delays.
Accelerated Data Analysis
Data analysis tasks often involve processing large datasets and performing complex calculations. The high clock frequency of 3.5 GHz provided by the AMD EPYC 73F3 CPU enables faster data analysis, reducing the time required to obtain insights from data. Whether you are performing financial analysis, scientific research, or business intelligence tasks, the CPU's high-speed processing capabilities enhance overall data analysis performance.
Real-Time Applications
Real-time applications, such as audio and video processing, require fast and responsive processing capabilities. With a clock frequency of 3.5 GHz, the AMD EPYC 73F3 CPU ensures that real-time applications can process data in a timely manner, minimizing latency and delivering smooth performance. Whether you are working with live audio or streaming video content, the high-speed processing capabilities guarantee optimal real-time application performance.
High-Frequency Trading
In high-frequency trading environments, where split-second decisions can make a significant impact, the 3.5 GHz clock frequency of the AMD EPYC 73F3 CPU is invaluable. The CPU's high-speed processing capabilities allow for rapid data analysis and execution of trading algorithms, enabling traders to seize opportunities in volatile markets. With faster processing times, high-frequency traders can gain a competitive edge and maximize their trading strategies.
Socket: Socket
Flexible Compatibility
The AMD EPYC 73F3 CPU supports a specific socket type that ensures compatibility with various motherboards. The socket acts as the physical interface between the CPU and the motherboard, allowing for seamless integration and communication. The flexibility provided by the AMD EPYC 73F3 CPU's socket enables users to choose from a wide range of compatible motherboards, providing options for different form factors, features, and expansion capabilities.
Easy Upgradability
The use of a socket-based CPU allows for easy upgradability in the future. As technology advances and new CPU models become available, users can simply replace their existing AMD EPYC 73F3 CPU with a newer model without having to change their entire system. This provides a cost-effective solution for users who want to keep their system up-to-date with the latest CPU advancements without the need for a complete system overhaul.
Multiple CPU Configurations
With a socket-based CPU like the AMD EPYC 73F3, users have the flexibility to configure their system with multiple CPUs. This is particularly beneficial for users with demanding workloads that require substantial computing power. By adding multiple CPUs to their system, users can significantly increase the number of cores and overall processing capabilities, allowing for faster data processing and improved performance.
Server Scalability
For server environments, the ability to use multiple CPUs in a single system is crucial. The AMD EPYC 73F3 CPU's socket compatibility allows for easy scalability, enabling users to build high-performance server clusters with multiple CPUs. This scalability ensures that servers can handle increasing workloads and provide efficient computing resources for demanding applications.
Workstation Power
Workstations used for tasks such as content creation, video editing, and 3D modeling can benefit from multiple CPUs. The AMD EPYC 73F3 CPU's socket compatibility allows users to build powerful workstations with multiple CPUs, providing the necessary computing power to handle resource-intensive tasks. With multiple CPUs, users can achieve faster rendering times, smoother workflows, and improved overall productivity.
Increased Virtualization Capacity
Virtualization environments often require significant computing power to handle multiple virtual machines efficiently. By utilizing multiple CPUs with the AMD EPYC 73F3 CPU's socket compatibility, users can increase their virtualization capacity and run a larger number of virtual machines simultaneously. This allows for efficient resource allocation and ensures optimal performance in virtualized server environments or VDI deployments.
Scientific Computing Clusters
Scientific computing clusters, used in research institutions and academic settings, rely on high-performance CPUs to handle complex simulations and data analysis tasks. The AMD EPYC 73F3 CPU's socket compatibility allows for the creation of large-scale computing clusters with multiple CPUs, providing the computational power required for scientific research. By combining multiple CPUs, researchers can accelerate their simulations and obtain results faster, enabling them to make groundbreaking discoveries.