3.55GHz

EPYC 32 Core 3.55GHz Processor Overview

The EPYC 32 Core 3.55GHz processor is a high-performance computing solution designed for enterprise-level workloads that demand exceptional processing power and scalability. With 32 cores running at an impressive base clock speed of 3.55GHz, this processor is ideal for tasks such as virtualization, data analytics, cloud computing, and high-performance computing (HPC). Its advanced architecture, energy efficiency, and robust security features make it a top choice for data centers and enterprise servers.

Core Architecture and Performance

The EPYC 32 Core 3.55GHz processor is engineered with AMD's cutting-edge architecture, delivering powerful multi-core performance optimized for parallel computing. Its high clock speed and core density provide exceptional processing capabilities for complex enterprise workloads.

High Core Count and Multi-Threading Efficiency

With 32 physical cores, the EPYC processor excels at handling parallel workloads, making it ideal for virtualization, cloud computing, and data-intensive applications like machine learning and big data analytics. Its multi-threading efficiency allows simultaneous execution of multiple threads, maximizing throughput and improving productivity.

Base Clock Speed and Dynamic Boosting

Operating at a base frequency of 3.55GHz, this processor delivers high-speed processing for compute-intensive applications. AMD's Precision Boost technology dynamically adjusts clock speeds, ensuring optimal performance under heavy workloads. This feature enhances system responsiveness and provides additional processing power when needed.

Energy Efficiency and Thermal Design

Despite its high clock speed and core count, the EPYC 32 Core 3.55GHz processor is designed for energy efficiency. Its advanced thermal design maintains optimal operating temperatures, ensuring reliable performance and longevity. Power management technologies dynamically regulate power consumption, reducing energy costs while maintaining high performance.

Advanced Features and Technologies

The EPYC 32 Core 3.55GHz processor is equipped with advanced features that enhance its performance, scalability, and security, making it suitable for demanding enterprise environments.

Simultaneous Multi-Threading (SMT)

AMD's Simultaneous Multi-Threading (SMT) technology enables each of the 32 cores to process two threads simultaneously, effectively doubling the thread count to 64. This enhances multi-threading performance, allowing efficient processing of concurrent tasks and maximizing resource utilization in virtualized environments.

Precision Boost and Performance Optimization

The EPYC processor features AMD Precision Boost technology, which dynamically increases clock speeds based on workload demands. This capability enhances single-threaded and multi-threaded performance, ensuring responsive computing for demanding applications like financial modeling, database management, and scientific simulations.

Enhanced Memory Support and Bandwidth

The EPYC 32 Core processor supports high-bandwidth DDR4 memory, providing fast data access speeds and low latency. This is crucial for data-intensive applications such as real-time analytics, AI model training, and HPC tasks. Its scalable memory architecture allows flexible configurations, optimizing resource utilization and improving overall system performance.

Security Features and Data Protection

Security is paramount in enterprise computing, and the EPYC 32 Core 3.55GHz processor integrates advanced security features to protect sensitive data and ensure system integrity.

AMD Secure Encrypted Virtualization (SEV)

AMD Secure Encrypted Virtualization (SEV) provides hardware-based memory encryption to isolate virtual machines from each other and the hypervisor. This enhances data security in multi-tenant cloud environments, protecting sensitive information from unauthorized access and ensuring compliance with data protection regulations.

Secure Memory Encryption (SME)

Secure Memory Encryption (SME) encrypts system memory, safeguarding data against cold boot attacks and unauthorized memory access. This security feature ensures data confidentiality and integrity, making it ideal for industries with stringent security requirements, such as finance, healthcare, and government sectors.

Advanced Encryption Standard (AES-NI)

The EPYC processor includes AES-NI, accelerating encryption and decryption operations without impacting system performance. This enables fast and secure data encryption for cloud storage and communication channels, ensuring high-level data security and compliance with industry standards.

Scalability and Enterprise Efficiency

The EPYC 32 Core 3.55GHz processor is designed for enterprise scalability, supporting multi-socket configurations to expand computing power as business needs grow. Its flexible deployment options and high compute density make it an ideal choice for data centers and enterprise servers.

Multi-Socket Configurations and High Compute Density

The processor's support for multi-socket configurations enables deployment of multiple CPUs within a single system, significantly increasing compute density. This is advantageous for data centers running large-scale virtualization, HPC, and cloud services, where maximizing compute power per rack unit is essential.

Reliability, Availability, and Serviceability (RAS)

The EPYC processor includes advanced RAS features for enhanced system reliability and minimal downtime. These features include error-correcting code (ECC) memory, predictive failure analysis, and support for hot-swappable components, ensuring high availability and maintainability.

Use Cases and Industry Applications

The EPYC 32 Core 3.55GHz processor is versatile and adaptable, suitable for a wide range of industry applications. Its high performance and scalability make it ideal for enterprise virtualization, cloud infrastructure, big data analytics, AI workloads, and database management systems.

Virtualization and Cloud Computing

With its high core count and advanced multi-threading capabilities, the EPYC processor is optimized for virtualization and cloud computing. It allows data centers to efficiently run multiple virtual machines (VMs) and containers, maximizing resource utilization and productivity in cloud environments.

Big Data Analytics and AI Workloads

The processor's high-performance architecture and scalable memory support accelerate data processing, making it ideal for big data analytics and AI workloads. It enables faster insights and improved decision-making processes for enterprise applications.

High-Performance Computing (HPC) and Scientific Research

The EPYC 32 Core processor's exceptional compute power and high memory bandwidth make it suitable for HPC tasks and scientific research simulations. Its multi-core efficiency and high clock speed provide the computational power needed for complex simulations, engineering modeling, and scientific analysis.