HPE P61723-B21 EPYC 9754 2.25GHz 128-Core Processor

Product Overview

General Information

Product Details

• Processor Type: Server Processor
• Part Number: P61723-B21
• Model: 9754

Technical Specifications

Core and Performance

• Core Count: 128 cores
• Base Clock Speed: 2.25 GHz
• Max Boost Speed: Up to 3.1 GHz

Cache and Thermal Power

• L3 Cache: 256 MB
• Thermal Design Power (TDP): 360W

Memory and Connectivity

Memory Specifications

• System Memory Type: DDR5
• Memory Channels: 12
• Maximum Memory Speed: Up to 4800 MT/s
• Memory Bandwidth per Socket: 460.8 GB/s

Socket Compatibility

• Compatible Socket Type: SP5

Overview of HPE P61723-B21 EPYC 9754 128-Core Processor

The HPE P61723-B21 EPYC 9754 processor is a powerhouse designed for enterprises and organizations that require exceptional performance for demanding workloads. With an astounding 128 cores and 256 threads, this processor from AMD's EPYC 9000 series is optimized for the most intense computing tasks. Operating at a base clock speed of 2.25GHz, it offers high-frequency capabilities, combined with the scalability required for both cloud-based and on-premise environments. Ideal for data centers, high-performance computing (HPC), AI workloads, and large-scale virtualization, the EPYC 9754 delivers unparalleled efficiency and flexibility for modern IT infrastructure.

Key Features of the HPE P61723-B21 EPYC 9754 Processor

• 128-Core Architecture: The EPYC 9754 boasts 128 cores, allowing it to handle multi-threaded and high-performance applications seamlessly. This architecture ensures it can tackle the most demanding computational tasks with ease.
• 2.25GHz Base Clock Speed: A reliable base clock speed with turbo frequencies offering increased performance under load, enabling it to meet varying workload demands.
• 256 Threads: Hyper-Threading technology enables the processor to handle 256 threads simultaneously, ensuring efficient parallel processing.
• PCIe 5.0 Support: This processor supports PCIe 5.0, doubling the bandwidth over PCIe 4.0 and ensuring faster data transfer and lower latency for high-performance workloads.
• High Memory Bandwidth: With support for DDR5 memory, the EPYC 9754 ensures high memory throughput, ideal for memory-intensive applications.
• Energy-Efficient Design: Built on advanced 5nm manufacturing technology, it is designed to maximize performance while minimizing power consumption, making it a suitable choice for enterprises focused on both performance and energy efficiency.

Applications and Use Cases

The HPE P61723-B21 EPYC 9754 processor is highly versatile and can be used across a wide range of industries and use cases, ensuring maximum performance for even the most demanding workloads.

Data Center and Cloud Computing

With its massive core count, the EPYC 9754 processor is ideal for enterprise data centers and cloud computing environments that require scalable, high-performance solutions. Whether deployed in private, hybrid, or public cloud architectures, the EPYC 9754 offers the compute power necessary to support large-scale virtualization, containerization, and microservices.

Cloud Infrastructure Optimization

The EPYC 9754 is designed to efficiently support cloud-native applications, offering the scalability and performance required for cloud infrastructure. It enables cloud service providers to deliver high-performance computing services with minimal latency and greater throughput.

Virtualization and Multi-Tenancy

Thanks to its high core count and multi-threading capabilities, the EPYC 9754 ensures exceptional performance for virtualized workloads. It supports multiple virtual machines (VMs) and containers simultaneously, making it an optimal solution for multi-tenancy environments where workloads are shared across numerous instances.

Artificial Intelligence and Machine Learning

The EPYC 9754 is a powerful processor for AI and machine learning (ML) applications, providing substantial computational power for both training and inference. It is designed to accelerate AI workloads, enabling faster model training and real-time decision-making for industries that rely on big data analytics and artificial intelligence.

AI Inference and Deep Learning

With its support for AVX-512 and other advanced instruction sets, the EPYC 9754 enhances the performance of deep learning models. Whether used in AI inference tasks or training complex neural networks, the processor’s immense parallel processing capabilities ensure rapid model deployment and real-time performance.

Data Processing for AI Models

The high memory bandwidth and multi-threading capabilities make the EPYC 9754 an ideal choice for processing vast amounts of data, a critical aspect of training sophisticated AI models. This enables quicker and more efficient training times, which is vital in AI-driven industries like autonomous driving, healthcare, and finance.

High-Performance Computing (HPC)

High-performance computing (HPC) requires immense computational power to solve complex problems in areas like scientific research, engineering simulations, and financial modeling. The HPE P61723-B21 EPYC 9754 processor is perfectly suited for such workloads, offering the processing power needed for the most demanding scientific calculations and simulations.

Scientific Research

For industries such as bioinformatics, climate modeling, and molecular simulations, the EPYC 9754 processor delivers exceptional speed and efficiency. Its ability to handle large-scale parallel computations accelerates scientific discoveries and innovations.

Engineering Simulations

Engineers rely on HPC for simulations of complex systems, such as fluid dynamics, materials science, and structural integrity testing. The EPYC 9754 processor’s power and scalability make it a perfect fit for such applications, delivering accurate results in significantly less time compared to traditional solutions.

Enterprise Applications

Enterprise resource planning (ERP), customer relationship management (CRM), and other mission-critical enterprise applications require consistent, high performance to ensure smooth operations. The EPYC 9754 processor is well-equipped to handle these applications, offering fast processing times and reliable performance.

Mission-Critical Workloads

Whether it’s handling large financial transactions, supply chain logistics, or running business-critical applications, the EPYC 9754 ensures that these operations run smoothly without downtime or bottlenecks.

Real-Time Data Analytics

In industries such as retail, finance, and healthcare, the ability to process and analyze data in real-time is crucial. The EPYC 9754 supports the massive parallelism and high throughput necessary for real-time data analytics, enabling companies to gain timely insights and make informed decisions.

Technical Specifications

The HPE P61723-B21 EPYC 9754 processor is engineered with cutting-edge technology and advanced features that ensure the highest levels of performance and reliability. Let’s explore its technical specifications in detail.

Core and Thread Configuration

With 128 cores and 256 threads, the EPYC 9754 is one of the most powerful processors on the market. This high core count provides unmatched parallel processing capabilities, making it an excellent choice for multi-threaded workloads such as large-scale data analysis, high-performance computing, and enterprise applications.

Clock Speed and Performance

Operating at a base clock speed of 2.25GHz, the processor’s turbo frequencies can push performance higher, adapting to varying workload demands. This allows the EPYC 9754 to offer both consistent base performance and burst processing speeds when required.

Advanced Memory Support

With support for DDR5 memory and six memory channels, the EPYC 9754 ensures high memory bandwidth for data-intensive applications. This feature is particularly important for workloads such as scientific simulations, machine learning, and large database management, where quick access to large datasets is essential.

PCIe 5.0 Support

The EPYC 9754 is equipped with PCIe 5.0 support, which doubles the data transfer rate over PCIe 4.0. This enables faster data access for high-performance storage and networking devices, reducing latency and improving throughput for critical applications.

Thermal Design Power (TDP)

Despite its exceptional core count and performance capabilities, the EPYC 9754 processor is designed with energy efficiency in mind, featuring a TDP of 360W. This efficient power consumption ensures that the processor delivers top-tier performance while keeping operational costs under control.

Security and Reliability

Security is a key consideration for enterprise-grade processors, and the EPYC 9754 is built with robust security features to protect sensitive data and ensure system integrity.

Security Features

• AMD Secure Memory Encryption (SME): Protects data in memory with encryption, ensuring that sensitive information remains secure.
• AMD Secure Encrypted Virtualization (SEV): Protects the confidentiality of virtual machines, securing data even in multi-tenant cloud environments.
• TPM 2.0 Support: The processor integrates Trusted Platform Module (TPM) 2.0 for enhanced hardware-based security features.