2.4GHz

2.4GHz EPYC 32-Core Processors

The 2.4GHz EPYC 32-Core processors are designed to meet the demands of modern data centers and high-performance computing environments. These processors provide exceptional processing power, reliability, and scalability, making them an ideal choice for workloads requiring massive parallel processing capabilities. Whether you're working with big data, virtualization, or scientific simulations, the EPYC 32-Core processors ensure high levels of efficiency and performance.

Key Features

• High Core Count: With 32 cores, these processors offer massive parallel processing power for demanding applications.
• Base Clock Speed of 2.4GHz: The 2.4GHz clock speed provides a solid balance between performance and power efficiency.
• Multi-Threading Support: EPYC processors support Simultaneous Multi-Threading (SMT), allowing for greater workload handling per core.
• PCIe Gen 4 Support: Full support for PCIe Gen 4 ensures faster data transfer speeds and greater bandwidth for high-performance workloads.
• Advanced Security Features: Built-in security features, such as Secure Memory Encryption (SME) and Secure Encrypted Virtualization (SEV), enhance data integrity and protection.
• Energy Efficiency: Optimized for low power consumption while maintaining high performance, the 2.4GHz EPYC processors are energy-efficient.

Choose the 2.4GHz EPYC 32-Core Processor

The 2.4GHz EPYC 32-Core processor delivers unparalleled performance for a wide range of applications. From data centers to cloud computing, the EPYC family is built for scalable workloads, and the 32-core variant is tailored for customers who need a powerful, yet cost-effective solution. Below, we’ll explore the major benefits and use cases for the EPYC 32-Core processor.

Outstanding Performance for Virtualization

Virtualization is one of the most common use cases for high-performance processors. With 32 cores, the 2.4GHz EPYC processor can handle numerous virtual machines (VMs) simultaneously, without sacrificing performance. By supporting simultaneous multi-threading (SMT), this processor can process multiple threads per core, leading to improved virtual machine density and performance in environments like VMware, Hyper-V, or KVM. EPYC processors also offer enhanced I/O capabilities, making them an excellent choice for data centers managing high-density virtualized environments.

Enhanced Data-Intensive Workloads

For businesses or researchers that handle large datasets, such as those found in machine learning, AI, or scientific computing, the 2.4GHz EPYC 32-Core processors offer an ideal solution. With a high number of cores, parallel processing capabilities, and fast memory throughput, these processors excel at handling tasks that require significant computational power. Tasks like data mining, simulations, and large-scale analysis can benefit greatly from the sheer number of cores and multi-threading support.

EPYC 32-Core Processor for Cloud Infrastructure

Cloud infrastructure requires processors that can scale with demand while ensuring reliable performance across multiple workloads. The 2.4GHz EPYC 32-Core processor is a great fit for cloud service providers. Its support for high core counts and simultaneous multi-threading allows cloud platforms to run multiple containers and virtual machines efficiently, thus reducing resource contention and improving user experience. Furthermore, EPYC processors support advanced security features, which are essential for cloud environments where data security and privacy are paramount.

Optimized for Hybrid and Multi-Cloud Environments

As organizations increasingly move towards hybrid cloud and multi-cloud strategies, the demand for powerful, efficient processors has grown. EPYC 32-Core processors are specifically designed to optimize workloads across both on-premise and cloud-based infrastructures. With their ability to handle a wide range of applications simultaneously and their energy-efficient architecture, they are perfect for hybrid cloud environments, where high performance, scalability, and cost-efficiency are essential.

Future-Proof with PCIe Gen 4 and AM4 Socket

With PCIe Gen 4 support, the 2.4GHz EPYC 32-Core processor offers faster data transfer speeds, which is critical for workloads that involve high-bandwidth operations, such as those involving large storage arrays or GPU-intensive applications. The use of the AM4 socket makes it easier to integrate these processors into existing server and workstation architectures, providing a cost-effective upgrade path without requiring a complete infrastructure overhaul.

Reliability and Scalability

When it comes to large-scale operations like data centers or enterprise servers, reliability is essential. EPYC processors are built with features that ensure uptime and system stability. With multiple cores, an advanced memory controller, and support for large amounts of RAM, the 2.4GHz EPYC 32-Core processor ensures reliable service across intensive computing tasks. Additionally, the processor’s high scalability means that businesses can expand their operations as needed, without worrying about outgrowing their hardware.

Effective Thermal Management

Another advantage of the 2.4GHz EPYC 32-Core processors is their effective thermal management, ensuring that systems can maintain optimal operating temperatures even under heavy workloads. This is essential for maintaining system stability, particularly in high-performance environments such as those found in data centers. The processors are designed to efficiently handle heat, reducing the likelihood of thermal throttling and extending the lifespan of the hardware.

Improved TCO (Total Cost of Ownership)

Due to their efficiency and high performance, 2.4GHz EPYC 32-Core processors can significantly lower the Total Cost of Ownership (TCO) for organizations. By delivering powerful performance without excessive energy consumption, these processors reduce the need for additional infrastructure and help optimize cooling requirements, thus reducing operating costs in the long run. Furthermore, businesses can reduce the number of physical machines required to handle workloads, lowering hardware acquisition costs and simplifying maintenance.

Advanced Security Features

Security is one of the most important aspects of modern computing, and EPYC processors have been designed with that in mind. The 2.4GHz EPYC 32-Core processor is equipped with advanced security features that help protect data and prevent malicious attacks. Some of the key security features include:

• Secure Memory Encryption (SME): This feature encrypts all system memory to prevent unauthorized access.
• Secure Encrypted Virtualization (SEV): SEV helps protect virtual machines by encrypting their memory, preventing data breaches and attacks.
• AMD Infinity Guard: A set of hardware-based security features designed to protect against attacks at the firmware and hardware level.
• TPM 2.0 Support: Trusted Platform Module (TPM) 2.0 provides an added layer of security for system integrity and data protection.

Data Integrity and Compliance

With the rise of stringent data privacy laws like GDPR, it is crucial for organizations to safeguard sensitive information. EPYC processors’ security capabilities make them an ideal choice for industries that must comply with regulatory standards. By providing built-in encryption and virtualization security, these processors help ensure data integrity and privacy, making them a reliable choice for businesses in regulated industries like healthcare, finance, and government.