4.1GHz

EPYC 24 Core 4.1GHz Processors

EPYC 24 Core 4.1GHz processors are engineered to deliver exceptional performance and scalability for enterprise computing needs. With a powerful base clock speed of 4.1GHz, these processors provide rapid data processing, making them ideal for complex workloads such as virtualization, cloud computing, and high-performance computing (HPC). The 24-core configuration ensures superior multitasking capabilities, efficiently managing demanding applications and high user concurrency.

Architectural Advancements and Design

These processors are built on AMD's advanced architecture, utilizing a multi-chip module (MCM) design. This architecture allows for high core density, improved scalability, and efficient resource utilization. By integrating multiple chips within a single package, latency is minimized, and data throughput is significantly enhanced, ensuring optimal performance in data-intensive environments.

Multi-Chip Module (MCM) Design

The MCM architecture in EPYC 24 Core 4.1GHz CPUs ensures efficient interconnectivity between cores, enhancing communication speed and reducing bottlenecks. This design allows for greater scalability and flexibility in configuring multi-socket server solutions, ideal for enterprise-grade data centers and cloud infrastructure.

Advanced Manufacturing Process

Manufactured using a cutting-edge 7nm process, these processors offer higher transistor density, improved power efficiency, and increased performance per watt. This results in faster processing speeds, lower power consumption, and reduced heat generation, contributing to enhanced system stability and reliability.

Performance Capabilities and Multitasking

With a base clock speed of 4.1GHz and 24 cores, EPYC 24 Core processors deliver remarkable computing power. The high frequency accelerates processing for single-threaded applications, while the 24 cores ensure efficient multitasking for complex, multi-threaded workloads. This makes them ideal for applications such as scientific computing, financial modeling, and enterprise-level database management.

Simultaneous Multi-Threading (SMT)

These processors feature Simultaneous Multi-Threading (SMT), allowing each core to handle two threads simultaneously. This effectively doubles the processing threads, maximizing throughput and enhancing multitasking capabilities. SMT significantly improves productivity in parallel computing tasks, such as virtualization, cloud services, and big data analytics.

High Clock Speed for Intensive Applications

Operating at a 4.1GHz base frequency, these processors deliver outstanding single-threaded and multi-threaded performance. The high clock speed enables faster data processing, reducing execution times for resource-intensive tasks, including complex calculations, scientific simulations, and engineering applications.

Cache and Memory Efficiency

EPYC 24 Core 4.1GHz processors are equipped with a large L3 cache, providing rapid access to frequently used data and minimizing memory latency. The significant cache size enhances data retrieval speed, ensuring high responsiveness and improved performance for data-centric applications such as big data analytics and AI workloads.

Large L3 Cache Architecture

The extensive L3 cache architecture optimizes data access, reducing memory bottlenecks and boosting overall system efficiency. This is particularly beneficial in multi-user environments and virtualized infrastructure, where fast data retrieval is crucial for maintaining high productivity and user satisfaction.

High-Bandwidth Memory Support

These processors support high-bandwidth memory technologies, enabling rapid data transfer rates essential for high-performance computing. This capability ensures efficient processing of large datasets in real-time, making them ideal for AI training, big data analytics, and scientific research applications.

Energy Efficiency and Thermal Management

Designed for energy efficiency, EPYC 24 Core 4.1GHz CPUs incorporate advanced power management technologies. They dynamically adjust power consumption based on workload requirements, optimizing performance per watt. Additionally, their efficient thermal design maintains system stability even under heavy processing loads, ensuring reliable operation and extended hardware lifespan.

Enhanced Cooling Solutions

To ensure consistent performance and system stability, EPYC 24 Core 4.1GHz processors utilize advanced cooling solutions. Their optimized thermal design efficiently dissipates heat, preventing overheating and maintaining peak performance even during intensive computational tasks, such as scientific simulations and real-time data processing.

Enterprise Use Cases and Applications

These processors are highly versatile, catering to a wide range of enterprise applications, including virtualization, cloud infrastructure, and big data analytics. Their high core count and fast clock speed provide exceptional processing power, making them suitable for resource-intensive environments, ensuring high productivity and efficient data processing.

Virtualization and Cloud Infrastructure

EPYC 24 Core 4.1GHz CPUs deliver outstanding performance in virtualization and cloud computing environments, supporting multiple virtual machines with high processing power and resource efficiency. Their multi-threading and high-frequency capabilities ensure seamless operations, efficient resource allocation, and optimized load balancing.

Big Data Analytics and Machine Learning

The high computational power and large cache of these processors enable rapid analysis of massive datasets, making them ideal for big data analytics and machine learning applications. They efficiently handle complex algorithms, accelerating data processing and enhancing predictive analytics capabilities.

Enterprise Database Management

These processors provide robust support for enterprise-level database management systems, ensuring fast query processing and high transaction throughput. Their multi-threading and high clock speed enhance database performance, enabling faster data retrieval and processing, which is crucial for business-critical applications.

Security and Reliability

EPYC 24 Core 4.1GHz processors incorporate advanced security features, including Secure Memory Encryption (SME) and Secure Encrypted Virtualization (SEV), ensuring data integrity and system reliability. These security mechanisms protect sensitive information from unauthorized access, ensuring a secure computing environment for enterprise applications.

Comprehensive Security Features

These processors include integrated security technologies, protecting data in use, at rest, and in transit. This comprehensive security framework is ideal for industries handling sensitive data, such as healthcare, finance, and government organizations, ensuring compliance with stringent data protection regulations.

Enterprise-Grade Reliability

With advanced error correction and system recovery mechanisms, EPYC 24 Core 4.1GHz CPUs ensure continuous operation and data integrity, even in the event of hardware failures. Their high reliability makes them suitable for mission-critical applications requiring consistent uptime and minimal downtime.