2.2GHz

2.2GHz EPYC 48 CORE Processors

The 2.2GHz EPYC 48 CORE processors are designed for high-performance computing environments, offering robust scalability and energy-efficient performance. These processors are part of AMD's EPYC family, known for their exceptional processing power and support for parallel workloads. With 48 cores running at a base clock speed of 2.2 GHz, these processors are ideal for data centers, enterprise applications, and other demanding computational tasks.

Key Features

The EPYC 48 CORE series represents the pinnacle of multi-core processing, designed to handle even the most resource-intensive applications. Whether you are running cloud workloads, artificial intelligence (AI) applications, or large-scale simulations, these processors provide the performance needed to keep your systems running at optimal speeds. Here are some of the standout features:

Exceptional Core Density

With 48 cores, these processors deliver a massive parallel processing capability, making them ideal for applications that require simultaneous execution of multiple tasks. This core density ensures efficient handling of workloads, enhancing the processor's ability to perform complex calculations faster and more reliably than ever before.

Base Clock Speed of 2.2GHz

The 2.2 GHz base clock speed ensures that tasks are processed quickly, offering an optimal balance between frequency and power efficiency. This is particularly important in server environments where performance demands are consistently high.

Energy Efficiency

Despite the significant power output, the EPYC 48 CORE processors are engineered to be energy efficient. AMD’s architecture optimizes power consumption, ensuring that your infrastructure operates efficiently, helping to reduce operational costs in large-scale computing environments.

2.2GHz EPYC 48 CORE Processors

These processors are highly versatile and can be used in a wide range of applications. Below are the most common uses where their performance benefits are most notable:

Cloud Computing

Cloud services demand high computational power, especially when hosting multiple clients or virtual machines. The 2.2GHz EPYC 48 CORE processor excels in providing the necessary compute resources for running cloud infrastructures, improving scalability, and minimizing latency in cloud environments.

Data Centers and Virtualization

Data centers rely heavily on processors that can handle large-scale virtualization and multi-threaded workloads. With 48 cores and a strong base clock, these processors enable efficient virtualization, allowing data centers to host numerous virtual machines without compromising on performance.

Scientific Computing

From simulations to data analysis, scientific computing requires processors that can handle intense computational workloads. The 2.2GHz EPYC 48 CORE processor’s performance makes it a perfect choice for scientific research, supporting high throughput and complex computations required in physics, biology, and engineering simulations.

AI and Machine Learning

With the rapid advancements in artificial intelligence, the demand for processing power has reached new heights. EPYC 48 CORE processors are well-suited to run AI models, machine learning algorithms, and deep learning processes. Their large number of cores enables parallel processing, which speeds up model training and inference tasks.

High-Performance Computing (HPC)

HPC applications often require the ability to perform billions of calculations simultaneously. The 48 cores of the EPYC processor make it ideal for simulations, weather forecasting, financial modeling, and more, where parallelism is key to performance and time-to-solution.

EPYC 48 CORE Processor Architecture

The architecture of the 2.2GHz EPYC 48 CORE processors is built on cutting-edge technologies that enable high performance and scalability. Here’s a closer look at its underlying architecture:

Zen Architecture

AMD’s Zen architecture powers the EPYC 48 CORE processors, delivering improved IPC (instructions per clock) and a higher level of efficiency compared to previous generations. This architecture is optimized for multi-threaded performance, which is essential for server-grade and high-demand applications.

Multi-Threading and Simultaneous Multi-Processing

Supporting simultaneous multi-threading (SMT), each of the 48 cores can handle two threads at once, effectively doubling the number of tasks that can be executed in parallel. This allows for enhanced throughput and workload distribution across the processor, especially beneficial in multi-tasking environments.

Infinity Fabric Technology

The Infinity Fabric is a high-speed interconnect that allows the EPYC processors to efficiently communicate with other components in the system, such as memory and storage. This ensures low-latency communication and maximizes the processing power of the entire server setup.

Performance Benchmarks

When evaluating processors, benchmarks provide a clear understanding of their capabilities. The 2.2GHz EPYC 48 CORE processors perform exceptionally well in a variety of performance tests:

Single-Core Performance

While multi-core performance is a major strength, the single-core performance of these processors is also highly competitive, with fast clock speeds ensuring that workloads dependent on individual core performance are handled efficiently. This is crucial for applications that don’t rely heavily on multi-threading.

Multi-Core Performance

Due to the 48 cores, these processors deliver remarkable multi-core performance. The high core count means that tasks can be divided and processed simultaneously, allowing for greater throughput in workloads such as video rendering, data compression, and scientific simulations.

Thermal Design Power (TDP)

The TDP of the EPYC 48 CORE processors is carefully optimized to balance performance with thermal efficiency. The EPYC 48 CORE processors typically offer a TDP in the range of 200 watts, meaning they provide high performance while not generating excessive heat, which is important in large-scale systems where cooling is a critical consideration.

Comparing EPYC 48 CORE Processors with Other Server CPUs

When considering a processor for server use, it’s important to compare options. Let’s see how the 2.2GHz EPYC 48 CORE stacks up against other leading processors in the market:

EPYC vs. Intel Xeon

While Intel’s Xeon processors have been the mainstay in the server market, AMD’s EPYC processors, particularly the 48 CORE variant, have emerged as a strong competitor. EPYC processors often provide better price-to-performance ratios, thanks to the high number of cores and energy efficiency. The 2.2GHz EPYC 48 CORE processor excels in multi-threaded workloads, outperforming comparable Xeon models in many benchmarks.

EPYC vs. ARM Processors

ARM-based processors are gaining traction in the server market due to their power efficiency. However, the 2.2GHz EPYC 48 CORE processor offers superior performance in traditional computing workloads, particularly for multi-threaded applications. ARM processors may hold an advantage in energy efficiency for light workloads, but EPYC is a better choice for heavy-duty, high-performance scenarios.

Advantages

For businesses and data centers looking to upgrade their infrastructure, the 2.2GHz EPYC 48 CORE processors offer several key advantages:

Increased Throughput

The increase in cores directly translates to greater throughput. More tasks can be handled concurrently, meaning the overall performance of the system improves, resulting in faster processing times and enhanced productivity in high-demand environments.

Enhanced Scalability

The scalability of the 2.2GHz EPYC 48 CORE processors allows businesses to grow their infrastructure seamlessly. Whether you need to handle more virtual machines or support larger databases, these processors provide the flexibility required for scaling up operations without sacrificing performance.

Compatibility and Integration

The 2.2GHz EPYC 48 CORE processors are compatible with a wide variety of motherboards, memory modules, and server configurations. They support DDR4 memory, PCIe Gen 4, and NVMe storage, ensuring that they can be integrated into the latest server systems to provide maximum performance and reliability.

Motherboard Compatibility

These processors are typically paired with Socket SP3 motherboards, which support the high core count and high bandwidth that the EPYC 48 CORE processors require. Ensuring compatibility with the right motherboard is crucial for getting the best performance.

Memory Support

EPYC 48 CORE processors support large memory capacities, ideal for workloads that require substantial amounts of RAM. With support for up to 8 channels of DDR4 memory, the processors can handle memory-intensive applications without bottlenecks.