3.3GHz

3.3GHz EPYC 64 CORE Processors

The 3.3GHz EPYC 64 CORE processors are designed for high-performance computing environments, offering robust computational power and reliability for businesses and enterprises that demand advanced processing capabilities. These processors are based on AMD's EPYC architecture, providing cutting-edge technology for data centers, workstations, and professional applications requiring multi-core processing. Featuring a base clock speed of 3.3 GHz and 64 cores, these processors enable efficient handling of complex workloads, such as virtualization, database management, and AI computations.

Overview

The 3.3GHz EPYC 64 CORE processors offer unparalleled performance with a combination of high clock speeds and an impressive number of cores. This configuration provides a highly scalable solution for various enterprise applications that need both power and energy efficiency. With the ability to handle multiple threads simultaneously, these processors ensure quick data processing, high throughput, and optimized performance across workloads.

Key Features

• 64 Cores and 128 Threads: With 64 physical cores and 128 threads, the EPYC processors are capable of handling multi-threaded applications with extreme efficiency, making them ideal for high-performance computing tasks like cloud services, AI, and big data analytics.
• 3.3GHz Base Clock Speed: A solid base clock of 3.3 GHz delivers reliable performance for both single-threaded and multi-threaded applications. This balance of speed and core count ensures that applications perform efficiently under heavy workloads.
• AMD Infinity Architecture: AMD’s Infinity Architecture ensures superior scalability, allowing these processors to handle large-scale applications and data management systems without bottlenecks.
• Support for Multi-Socket Systems: These processors are designed to support multi-socket configurations, allowing for higher processing power by connecting two or more CPUs for even more cores and threads, ideal for data centers and complex computing environments.
• High Memory Bandwidth: The processors are equipped with high-bandwidth memory support, enabling efficient data flow to and from the cores, which is essential for memory-intensive applications such as virtual machines and large databases.
• Enhanced Security Features: The 3.3GHz EPYC 64 CORE processors are built with advanced security features, including hardware-based security solutions such as Secure Encrypted Virtualization (SEV) and Secure Memory Encryption (SME) for better protection of sensitive data.

Performance Benefits

The 3.3GHz EPYC 64 CORE processors provide unmatched performance for modern computing needs. Their high core count and clock speed enable fast data processing and the ability to handle multiple demanding tasks simultaneously. These processors offer the following performance benefits:

Multi-Tasking and Virtualization

With 64 cores and the ability to process 128 threads at once, the 3.3GHz EPYC 64 CORE processors excel in multi-tasking environments. Whether running virtualized workloads or handling multiple applications at once, these processors ensure smooth, lag-free performance. The high number of cores makes it possible to run multiple virtual machines (VMs) and containers simultaneously without any performance degradation.

Virtualization Use Cases

• Cloud Hosting: For hosting numerous virtualized instances and cloud-based applications, the 3.3GHz EPYC 64 CORE processor’s multi-core setup offers high performance while keeping costs down with energy-efficient operation.
• Software Development and Testing: Developers can run parallel environments for testing multiple builds or configurations simultaneously, all while utilizing the processor’s high core count.
• Data Center Operations: In large data centers, these processors can manage thousands of virtual machines, making them a crucial component for any high-performance server or cloud infrastructure.

Data Processing and Database Performance

The high core count of the EPYC 64 CORE processors makes them ideal for managing large databases and processing complex queries with ease. The ability to manage massive datasets and perform high-frequency transactions in real-time helps businesses improve their data-driven applications and services.

Database Optimizations

• Real-Time Analytics: The 3.3GHz base clock and 64-core architecture allow for real-time analytics on massive amounts of data, enabling businesses to get insights from their databases quickly.
• OLTP and OLAP Workloads: These processors are optimized for both Online Transaction Processing (OLTP) and Online Analytical Processing (OLAP) workloads, making them versatile for both transactional and analytical databases.

Advanced AI and Machine Learning Performance

For AI and machine learning applications that require heavy computational workloads, the 3.3GHz EPYC 64 CORE processors deliver powerful performance. The ability to handle parallel processing tasks efficiently helps train machine learning models faster and run large-scale AI algorithms in real-time.

AI Workloads and Parallel Computing

• Deep Learning: With a high number of cores, the EPYC processors can handle deep learning training sessions more efficiently, reducing time for model convergence.
• Data Processing for AI: The processor’s speed and cores make it ideal for large-scale data processing and inference tasks, ensuring the system can keep up with AI needs across various industries like healthcare, finance, and manufacturing.

Power-Efficient Design

EPYC processors are built with advanced 7nm manufacturing technology, which not only provides exceptional processing power but also reduces the overall energy usage. This power-efficient design ensures that businesses can run high-performance workloads without incurring high energy costs, especially in large, power-hungry data center environments.

Power Management Technologies

• Dynamic Power Adjustment: The processors adjust power consumption dynamically depending on the workload, reducing the overall energy footprint during idle or lighter tasks.
• Thermal Efficiency: EPYC 64 CORE processors use advanced thermal solutions that ensure proper cooling, helping maintain energy efficiency in high-performance systems.

Integration with Server Systems

The 3.3GHz EPYC 64 CORE processors are compatible with a wide range of server systems, making them suitable for various enterprise needs. These processors integrate seamlessly with both single and multi-socket server configurations, providing scalability and flexibility for growing businesses. From entry-level servers to large-scale enterprise infrastructures, these processors help businesses optimize performance without the need for frequent upgrades.

Compatibility with Various Server Platforms

• Single-Socket Systems: For businesses with smaller-scale computing needs, the single-socket systems utilizing the 3.3GHz EPYC 64 CORE processors deliver excellent performance in a compact, cost-effective form.
• Dual-Socket Systems: Dual-socket configurations enable enterprises to scale up their computing power by combining two processors, offering up to 128 cores and 256 threads, ideal for mission-critical applications.
• High-Performance Computing (HPC): For research institutions and other organizations requiring extreme computational capabilities, these processors provide the necessary power for complex simulations, scientific computations, and engineering applications.

Use Cases for EPYC 64 CORE Processors in Servers

• Web Hosting and Content Delivery: For companies providing web hosting services, these processors can easily manage thousands of requests per second while maintaining high-speed delivery.
• Enterprise Resource Planning (ERP): These processors support the heavy workloads of enterprise software, enabling faster processing times for ERP applications.
• High-Traffic Websites: For websites with heavy traffic, EPYC 64 CORE processors ensure a consistent and reliable user experience.