3.65GHz

EPYC 48 Core 3.65GHz Processors

The EPYC 48 Core 3.65GHz processors are designed for users and businesses that require the highest levels of performance and reliability. Featuring 48 cores, these processors deliver impressive processing power capable of handling the most demanding tasks in industries such as cloud computing, virtualization, big data analytics, scientific computing, and high-performance computing (HPC). With a base clock speed of 3.65GHz, the EPYC 48 Core processor provides not only exceptional multi-threading capabilities but also excellent single-core performance, making it highly versatile and efficient across a wide range of workloads.

Architecture and Design of EPYC 48 Core 3.65GHz Processors

The EPYC 48 Core 3.65GHz processors utilize AMD’s cutting-edge Zen 3 architecture, designed to maximize performance per watt. The multi-chip module (MCM) design ensures high scalability, allowing for efficient performance across multiple cores while minimizing latency and maximizing data throughput. This makes the processor ideal for data centers, enterprises, and cloud infrastructure that need scalable solutions without compromising on speed or power efficiency.

Zen 3 Architecture

The Zen 3 architecture offers a wide range of enhancements over its predecessors, providing increased instructions per clock (IPC) and reducing latency between cores. These improvements enable EPYC processors to perform better in multi-threaded and single-threaded workloads. This architecture significantly boosts overall system performance, especially in environments where every fraction of a second matters, such as in high-frequency trading or real-time data analytics.

Multi-Chip Module (MCM) Design for Scalability

The multi-chip module (MCM) architecture enables higher core density and more efficient use of resources. By integrating multiple chips within the processor, the EPYC 48 Core achieves scalability without the performance bottlenecks typically associated with large-core processors. This design provides greater flexibility for users, allowing them to scale up their infrastructure without a loss in efficiency or performance, making it perfect for high-demand, multi-threaded applications.

Performance and Core Efficiency

The 48 cores of the EPYC 48 Core 3.65GHz processor deliver extraordinary parallel processing capabilities. Whether performing complex data analyses, running high-density virtual machines, or processing large amounts of information in real-time, this processor can handle it all with ease. The high clock speed of 3.65GHz ensures that tasks requiring fast data processing are handled swiftly and efficiently, enabling businesses to improve their operational speed.

Massive Core Count for Parallelism

The 48-core configuration enables efficient parallel computing, providing significant performance boosts in multi-threaded workloads. Applications that require concurrent processing across multiple threads, such as video rendering, 3D modeling, and big data analytics, benefit greatly from the parallel capabilities of the EPYC 48 Core 3.65GHz processor. This multi-threading power makes it ideal for running multiple virtual machines (VMs) simultaneously without compromising the performance of any individual VM.

High Clock Speed for Single-Core Performance

Although designed for multi-core efficiency, the EPYC 48 Core processor doesn’t neglect single-core performance. With a base clock speed of 3.65GHz, it delivers exceptional performance for applications that rely on high clock speeds. Whether for database management, financial modeling, or scientific simulations, the EPYC 48 Core processor ensures that workloads requiring fast computation on individual threads run seamlessly and efficiently.

Cache and Memory Architecture

The memory hierarchy in the EPYC 48 Core 3.65GHz processor is engineered to optimize data throughput and minimize bottlenecks, which is crucial for memory-intensive applications. Featuring a large L3 cache, the processor can store more data closer to the cores, reducing memory latency and boosting overall processing efficiency. In addition, support for high-bandwidth memory (HBM) and DDR4 ensures fast and reliable memory access, improving performance across a variety of applications.

Large L3 Cache for Reduced Latency

The EPYC 48 Core processor features an extensive L3 cache, which reduces the need to fetch data from main memory as often, thereby minimizing latency. This is especially beneficial in high-performance applications, such as real-time analytics and machine learning, where rapid access to large data sets is critical. The large cache allows the processor to handle more data at once, improving performance and efficiency when dealing with large volumes of information.

High-Bandwidth Memory for Faster Data Access

Equipped with support for high-bandwidth memory (HBM), the EPYC 48 Core 3.65GHz processor ensures fast data access for memory-intensive tasks. Whether running artificial intelligence models, scientific simulations, or data warehousing applications, the high memory bandwidth allows for the swift processing of large data sets. This results in faster execution times and improved overall system responsiveness, which is essential for mission-critical workloads.

Energy Efficiency and Power Management

Despite its massive core count and high clock speed, the EPYC 48 Core 3.65GHz processor is highly energy efficient. Leveraging advanced power management features, the processor dynamically adjusts its power usage based on the workload requirements, ensuring optimal energy consumption without sacrificing performance. This power efficiency helps reduce operational costs, particularly in large-scale data centers where energy consumption is a critical consideration.

Dynamic Power Management for Optimal Efficiency

Dynamic power management (DPM) is one of the key features that enhances the energy efficiency of the EPYC 48 Core processor. DPM enables the processor to adjust its power consumption based on workload demand. During less intensive tasks, the processor reduces its power consumption, leading to lower energy bills and less heat generation. However, when heavy workloads are encountered, the processor increases power output to ensure the task is completed efficiently.

Thermal Efficiency for Stable Operation

In addition to dynamic power management, the EPYC 48 Core 3.65GHz processor employs advanced thermal solutions to maintain stable performance. With an efficient cooling design, the processor effectively dissipates heat, preventing overheating and ensuring long-term reliability. This is particularly important in enterprise environments and high-performance computing systems, where maintaining consistent system operation under load is critical.

Key Applications for EPYC 48 Core 3.65GHz Processors

The EPYC 48 Core 3.65GHz processors are built to excel in demanding applications that require extreme computational power. From virtualization and cloud computing to big data and artificial intelligence, these processors provide a versatile solution for a range of industries that depend on high-performance computing to drive innovation and efficiency.

Cloud Computing and Virtualization

In cloud computing environments, EPYC 48 Core processors provide the horsepower needed to run thousands of virtual machines (VMs) simultaneously, without performance degradation. The processor’s multi-threading capabilities and high memory bandwidth ensure that each VM operates efficiently, enabling businesses to maximize the use of their cloud infrastructure. This makes it an excellent choice for public, private, and hybrid cloud deployments.

Big Data and Data Analytics

For industries relying on big data, such as finance, healthcare, and retail, the EPYC 48 Core 3.65GHz processor offers the processing power needed to analyze large datasets quickly and accurately. With its high core count and efficient memory management, the processor can execute complex queries and data analysis tasks with impressive speed, providing insights that drive business decisions in real time.

High-Performance Computing (HPC)

HPC applications, such as scientific simulations, weather forecasting, and engineering design, benefit greatly from the EPYC 48 Core 3.65GHz processor’s massive parallel processing capabilities. The processor can perform simulations and compute-intensive tasks in a fraction of the time it would take traditional processors. As a result, researchers and scientists can accelerate discovery and innovation by processing large models and datasets more efficiently.

Artificial Intelligence and Machine Learning

Artificial intelligence and machine learning workloads require vast computational resources, and the EPYC 48 Core 3.65GHz processor is designed to meet these demands. With its high core count, large cache, and fast memory bandwidth, the processor can quickly train AI models and process large datasets in machine learning tasks. This makes it an excellent solution for AI-driven businesses looking to accelerate their machine learning workflows.

Reliability and Security

EPYC 48 Core processors provide enterprise-grade security and reliability, ensuring that sensitive data is protected and systems remain operational in critical environments. The processor includes built-in security features, such as Secure Memory Encryption (SME) and Secure Encrypted Virtualization (SEV), which safeguard data in transit and at rest. This level of security is essential for industries where data privacy and integrity are of utmost importance, including finance, healthcare, and government.

Built-in Hardware Security

With integrated hardware security features, the EPYC 48 Core 3.65GHz processor ensures that data remains safe even in the event of a system breach. SME and SEV provide robust encryption at the hardware level, preventing unauthorized access to critical data. These security features help organizations maintain compliance with regulatory standards such as GDPR and HIPAA, which require strict data protection measures.

Mission-Critical Reliability

Designed for mission-critical applications, the EPYC 48 Core processor is built for high availability and reliability. Whether for enterprise-level databases, cloud services, or scientific research, businesses can depend on the processor to run continuously with minimal downtime. With built-in redundancy and error-correction features, it offers a stable and reliable computing platform for even the most demanding workloads.