2.4GHz

EPYC 64 Core 2.4GHz Processors

The EPYC 64 Core 2.4GHz processor represents one of the most powerful offerings in AMD’s EPYC processor lineup. Designed to deliver unparalleled performance, this processor is ideal for workloads requiring massive parallel processing power, such as high-performance computing (HPC), artificial intelligence (AI), cloud computing, and large-scale data analytics. With 64 cores and a base clock speed of 2.4GHz, it strikes the perfect balance between multi-threading power and clock speed, offering superior performance across a wide range of demanding applications.

Key Features of EPYC 64 Core 2.4GHz Processors

With 64 cores and a base frequency of 2.4GHz, the EPYC 64 Core processor offers a combination of impressive multi-threaded performance and high-frequency operation. The advanced microarchitecture and high core count make it the ideal choice for data centers, cloud infrastructure, scientific research, and enterprise-level applications that require the handling of vast amounts of data and numerous simultaneous processes. Below are the main features that set the EPYC 64 Core processor apart from its competitors.

Zen 3 Architecture for Optimal Performance

The EPYC 64 Core processor is built on AMD's cutting-edge Zen 3 architecture, which is designed to deliver significant improvements in instructions per clock (IPC) and overall performance. Zen 3’s architecture provides an enhanced pipeline, which reduces latency between cores and increases the efficiency of the processor. This results in faster execution of tasks, particularly for multi-threaded applications. The Zen 3 architecture is renowned for its ability to handle complex workloads efficiently, making the EPYC 64 Core processor ideal for resource-heavy applications such as simulation, modeling, and large-scale data processing.

Multi-Chip Module (MCM) Design for Scalability

One of the standout features of the EPYC 64 Core processor is its multi-chip module (MCM) design. This approach allows AMD to integrate multiple chips into a single processor, maximizing core density and enabling exceptional scalability. This MCM design allows the EPYC 64 Core processor to handle demanding tasks without hitting performance bottlenecks, and it provides businesses with a flexible solution for scaling up computing power as needed. This flexibility is crucial in environments where businesses need to grow their infrastructure without sacrificing performance.

Performance Across a Range of Workloads

The EPYC 64 Core 2.4GHz processor is designed to excel in a variety of workloads. From running thousands of virtual machines (VMs) simultaneously in a data center to performing complex calculations in scientific computing, the EPYC processor handles high-demand tasks with ease. Let’s take a closer look at the performance benefits for specific types of workloads:

High-Performance Computing (HPC)

High-performance computing (HPC) applications require processors capable of handling complex scientific simulations, engineering designs, and large-scale computational tasks. The EPYC 64 Core 2.4GHz processor’s impressive core count and clock speed make it a top contender in the HPC space. The ability to manage multiple threads concurrently, while also delivering high-frequency performance, enables the processor to quickly compute the massive datasets required for simulations and research. Industries such as aerospace, automotive engineering, and climate research benefit greatly from the power of the EPYC 64 Core processor for processing vast quantities of data and running resource-heavy applications.

Cloud Computing and Virtualization

Cloud computing and virtualization are two of the most demanding workloads, requiring processors that can handle high levels of concurrency and ensure reliable performance across multiple virtual machines. The EPYC 64 Core processor is perfectly suited for cloud computing environments, as it provides the parallel processing capabilities needed to run multiple VMs without compromising on performance. Whether deployed in private, public, or hybrid cloud environments, this processor ensures that cloud-based applications run smoothly, even during periods of peak demand. Additionally, its scalable design allows cloud providers to meet the ever-increasing demand for computing resources without having to constantly upgrade hardware.

Artificial Intelligence and Machine Learning

Artificial intelligence and machine learning applications require a high level of computational power for tasks such as model training, pattern recognition, and natural language processing. With its 64 cores and high memory bandwidth, the EPYC 64 Core 2.4GHz processor excels at handling the intensive calculations necessary for AI and ML workloads. The processor's ability to handle parallel tasks efficiently ensures that businesses can accelerate their AI workflows, reducing the time required to train models and process large datasets. This processor is also ideal for real-time AI applications that demand low-latency processing, such as autonomous vehicles or robotics.

Data Analytics and Big Data

Big data analytics is another area where the EPYC 64 Core processor shines. Processing large datasets quickly and efficiently is essential for industries such as finance, healthcare, and retail. The combination of 64 cores and a base clock speed of 2.4GHz allows the EPYC processor to rapidly analyze large volumes of data, generating insights and reports in real-time. Businesses in data-driven industries can leverage this processor to improve decision-making and deliver better outcomes by gaining faster access to the data they need.

Memory and Cache Optimization

Memory performance plays a critical role in the overall efficiency of any processor. The EPYC 64 Core 2.4GHz processor is optimized for high-memory throughput, which is essential for running large applications and managing large datasets. With a large amount of cache and support for high-bandwidth memory, the processor minimizes memory latency and ensures that data can be accessed rapidly. This is crucial for workloads that require quick access to large datasets, such as in financial modeling, scientific research, and video rendering.

Large L3 Cache for Data Access

One of the key factors that contribute to the exceptional performance of the EPYC 64 Core processor is its large L3 cache. This large cache allows frequently accessed data to be stored closer to the processor, reducing the need to access slower memory channels and improving overall processing speed. For tasks that involve frequent data access, such as database operations and data analysis, the large L3 cache enables the processor to operate more efficiently, saving time and increasing performance.

High-Bandwidth Memory Support

EPYC processors support high-bandwidth memory (HBM), which allows for faster data transfer between the processor and memory. This high-bandwidth memory support ensures that the processor can handle memory-intensive workloads without bottlenecks. Whether dealing with real-time data processing or large-scale computational simulations, the high memory bandwidth provided by the EPYC 64 Core processor is essential for achieving maximum performance. This makes the processor well-suited for applications such as video rendering, big data analytics, and scientific research.

Advanced Thermal Management

Along with dynamic power management, the EPYC 64 Core processor features advanced thermal management technology to prevent overheating and ensure long-term reliability. Efficient cooling solutions are critical in high-performance computing environments, where the processor is often subjected to demanding tasks that generate substantial amounts of heat. With advanced thermal solutions, the EPYC 64 Core processor maintains optimal operating temperatures, even under heavy workloads, ensuring consistent performance and extending the lifespan of the hardware.

Applications for EPYC 64 Core 2.4GHz Processors

Given its extraordinary processing power, the EPYC 64 Core processor is ideal for a wide range of applications that require massive computational resources. Whether used in enterprise data centers, scientific research facilities, or cloud environments, the EPYC 64 Core 2.4GHz processor provides the performance necessary to handle complex workloads at scale. Below are some key applications where the EPYC 64 Core processor excels:

Enterprise Data Centers

Enterprise data centers require processors capable of handling thousands of concurrent operations without slowing down. The EPYC 64 Core processor’s multi-threading capabilities and high frequency make it ideal for managing large-scale workloads in data centers, including web hosting, database management, and running virtualized environments. Its high core count ensures that the processor can manage multiple virtual machines (VMs) without performance degradation, making it an excellent choice for virtualized environments in large-scale enterprise deployments.

Cloud Infrastructure

Cloud infrastructure demands high scalability and flexibility, as it must handle fluctuating workloads and support numerous users simultaneously. The EPYC 64 Core processor meets these demands, offering powerful multi-core performance that scales easily in virtualized environments. Cloud providers can deploy this processor to provide fast, efficient services to customers, while minimizing the need for hardware upgrades in the future. The processor’s scalability makes it a reliable option for public, private, and hybrid cloud environments.

Scientific Research and Simulations

For scientific research and simulations that require heavy computational workloads, the EPYC 64 Core processor is an ideal solution. It can rapidly process large datasets and handle complex mathematical models, which is critical for applications in fields such as genomics, physics, and climate modeling. The high core count and excellent memory bandwidth ensure that researchers can conduct simulations and analyses more quickly, enabling faster discovery and innovation.

Security and Reliability

Security and reliability are paramount in enterprise and cloud environments, and the EPYC 64 Core processor doesn’t compromise on these areas. With built-in security features such as Secure Memory Encryption (SME) and Secure Encrypted Virtualization (SEV), the EPYC processor ensures that data remains secure during processing, preventing unauthorized access and enhancing data protection across virtual machines. These hardware-based security features are essential for industries where data privacy is a top priority, including finance, healthcare, and government.

Data Encryption and Protection

The EPYC 64 Core processor includes advanced encryption technologies to protect sensitive data from threats. With hardware-based memory encryption and secure virtualization features, businesses can ensure that their data is protected both at rest and during processing. These security features are particularly important for industries that handle confidential information, such as finance, government, and healthcare, where data protection is critical for compliance and operational security.

High-Availability and Reliability

For mission-critical applications, the EPYC 64 Core processor is designed to provide high availability and ensure that systems remain operational even under the most demanding conditions. Features such as error-correction codes (ECC) memory and redundant system support ensure that the processor can detect and correct faults, minimizing downtime and maintaining system stability. This level of reliability is essential in environments where system failure is not an option, such as in healthcare, financial services, and government applications.