100-000001559 AMD 16-Core 4.3GHz 64MB L3 Cache Socket Processor

AMD 100-000001559 EPYC 16-Core 4.3GHz Processor

The AMD 100-000001559 EPYC 4565P is a powerful single-socket server processor built on AMD’s advanced Zen 4 architecture. Designed for enterprise-grade computing environments, it provides outstanding multi-threaded performance, exceptional memory bandwidth, and remarkable energy efficiency. With 16 cores, 32 threads, and a maximum boost clock speed of 4.3GHz, this EPYC processor ensures optimal processing throughput for demanding workloads such as virtualization, high-performance databases, and cloud-native infrastructures.

Architectural Efficiency and Advanced Performance

The EPYC 4565P is part of AMD’s fourth-generation EPYC processor family, which uses the AM5 socket and TSMC’s cutting-edge 5nm manufacturing process. This combination results in superior transistor density and performance per watt compared to earlier generations. With a base clock speed of 3.7GHz and a precision boost frequency up to 4.3GHz, this processor offers excellent single-core responsiveness while maintaining superior multi-core efficiency for parallelized tasks in enterprise environments.

Equipped with 64MB of shared L3 cache and a robust 170W thermal design power (TDP), it delivers high computational throughput without thermal throttling under intensive workloads. This ensures consistent processing reliability across data centers, business applications, and virtualized systems.

Scalability and Enterprise-Grade Reliability

The AMD EPYC 4565P supports a single-socket configuration, ideal for organizations looking for efficient compute nodes that maximize cost-to-performance ratio. By consolidating workloads on fewer physical servers, businesses can reduce energy consumption, minimize data center footprint, and achieve higher operational efficiency. The architecture also supports advanced virtualization technologies, allowing multiple virtual machines to share computing resources efficiently while maintaining isolation and performance stability.

Featuring support for DDR5 memory and PCIe 5.0 lanes, this processor ensures high-speed connectivity and memory throughput, essential for large-scale data processing and rapid application response times. Its enterprise-level security features, such as AMD Infinity Guard, include memory encryption and secure boot functionalities to protect against firmware-level attacks and unauthorized access.

Memory Compatibility and PCI Express Support

The AMD EPYC 4565P 100-000001559 processor provides robust support for DDR5 memory modules, enabling greater data bandwidth and lower latency compared to DDR4-based systems. With multiple memory channels, users can expect exceptional memory scalability suitable for virtualization, in-memory computing, and AI workloads. The DDR5 architecture allows the system to handle large volumes of concurrent processes efficiently while maintaining consistent data integrity.

PCIe 5.0 support is another hallmark feature of this processor, delivering twice the data throughput per lane compared to PCIe 4.0. This allows servers powered by the EPYC 4565P to accommodate next-generation storage solutions, high-performance GPUs, and advanced network cards. The high-speed interconnect helps reduce I/O bottlenecks, accelerating data transfer between the CPU, memory, and peripheral components. This results in faster data analytics, superior rendering performance, and improved server responsiveness across complex computational tasks.

Advanced Security and Data Protection Features

AMD has integrated comprehensive hardware-based security enhancements within the EPYC 4565P architecture to address modern cybersecurity challenges. The AMD Infinity Guard suite provides end-to-end protection for sensitive data by encrypting system memory and securing the hypervisor layer. This ensures that even if physical memory is compromised, the data remains inaccessible without proper authorization.

Secure Encrypted Virtualization (SEV) allows each virtual machine to operate in an encrypted memory space, safeguarding data in multi-tenant environments. Additionally, features such as Secure Boot and Hardware Root of Trust ensure that only verified firmware and system components are executed during startup. These layers of defense make the EPYC 4565P an ideal solution for organizations operating in finance, healthcare, and cloud computing sectors where data privacy and integrity are paramount.

Power Efficiency and Thermal Optimization

With a 170W thermal design power rating, the AMD EPYC 4565P balances high-performance output with efficient power utilization. The processor employs advanced dynamic power management technologies that optimize energy consumption based on real-time workload demands. This allows data centers to achieve higher performance density per watt while maintaining cooler operating environments.

Thermal efficiency is further enhanced by AMD’s Precision Boost and Precision Boost Overdrive technologies, which dynamically adjust clock frequencies and voltage levels to maintain ideal performance levels within thermal limits. This feature is particularly valuable in dense rack configurations, where heat dissipation and energy consumption play a critical role in overall infrastructure cost management.

Compatibility with Enterprise Platforms

The EPYC 4565P processor is compatible with a wide range of enterprise server motherboards and platforms utilizing the AM5 socket. This ensures a flexible integration path for organizations upgrading from earlier EPYC series or building new systems for compute-intensive applications. Its support for PCIe 5.0 lanes and DDR5 memory makes it a future-ready solution for next-generation storage and networking technologies.

Systems powered by this CPU can efficiently handle workloads such as database management, big data analytics, virtualization, and content delivery services. Whether deployed in hyperscale cloud infrastructures or on-premises enterprise environments, the EPYC 4565P provides predictable performance, scalable architecture, and dependable uptime under continuous operation.

Server and Data Center Application Suitability

The AMD 100-000001559 EPYC 4565P is purpose-built for high-performance computing and enterprise-level workloads. It excels in data center deployments requiring dense compute capabilities, consistent throughput, and reliable virtualization performance. Its 16-core, 32-thread configuration allows parallel execution of complex computational tasks, enhancing throughput in applications such as scientific modeling, AI inferencing, and large-scale data analysis.

Cloud service providers benefit from its ability to support multiple isolated workloads with minimal overhead, maximizing server utilization and operational efficiency. The CPU’s combination of speed, scalability, and security allows for seamless performance under demanding multi-user environments.

Performance in Virtualization and Cloud Workloads

The EPYC 4565P’s architecture is optimized for virtualized infrastructures. It provides exceptional support for virtual machine density and workload consolidation, making it an ideal processor for VMware, Microsoft Hyper-V, and KVM-based environments. With AMD Infinity Fabric interconnect technology, each core communicates efficiently, reducing latency and improving responsiveness in virtualized workloads.

Cloud-native deployments utilizing containerized platforms such as Kubernetes also benefit from its high core count and robust memory bandwidth. These features ensure that containerized applications receive the compute resources they need for consistent and reliable performance. The high number of PCIe lanes enables faster networking and storage access, essential for distributed computing and microservice-based environments.

Database and Analytical Workload Optimization

Databases such as Oracle, Microsoft SQL Server, and PostgreSQL rely heavily on CPU performance and memory throughput. The EPYC 4565P’s 16-core configuration, large cache, and high-frequency operation ensure that transactional and analytical queries execute efficiently. Its DDR5 support significantly enhances memory access speed, resulting in faster data indexing, query response, and report generation.

For analytics workloads, the processor enables real-time data processing, allowing businesses to derive insights from massive datasets rapidly. This makes it particularly valuable in industries like finance, logistics, and e-commerce, where decision-making depends on real-time data accuracy and performance consistency.

High-Speed Data Processing and Workload Distribution

With advanced scheduling and instruction set optimizations, the EPYC 4565P achieves superior efficiency in managing diverse workloads. Its simultaneous multithreading capability allows multiple processes to run concurrently, improving system responsiveness and reducing idle time. This leads to faster job completion rates and enhanced user productivity across enterprise systems.

Balanced Compute and Energy Efficiency

AMD’s design philosophy focuses on delivering balanced performance without excessive power draw. The EPYC 4565P achieves this through its adaptive frequency scaling and efficient silicon layout. It intelligently allocates power to the cores that need it most, ensuring that both performance and efficiency remain optimized in real-time computing scenarios.

Integration in High-Performance Storage and Networking Systems

With PCIe 5.0 connectivity, the EPYC 4565P seamlessly integrates with advanced storage and networking technologies. This makes it an excellent choice for network-attached storage servers, SAN environments, and hyper-converged infrastructure solutions. The faster data throughput significantly reduces latency in data access, contributing to improved I/O performance for mission-critical workloads.

When paired with NVMe-based storage drives, the EPYC 4565P delivers rapid read and write operations suitable for enterprise backup, database replication, and virtualized storage management. In high-speed network configurations, it supports fast packet processing, enhancing communication efficiency across connected systems.

Data Center Sustainability and Green Computing

The AMD EPYC 4565P contributes to sustainable computing by offering excellent performance-per-watt ratios. Data centers can achieve reduced operational costs and lower carbon footprints through efficient power utilization and minimal cooling requirements. Its optimized energy profile ensures that businesses can scale performance while adhering to environmental sustainability goals.

By consolidating workloads on fewer physical servers, enterprises can achieve the same or higher levels of performance with reduced hardware investment. This leads to more sustainable infrastructure deployment, minimizing both energy consumption and electronic waste.

Enhanced System Reliability and Longevity

AMD’s EPYC processors undergo rigorous validation to ensure long-term reliability and stability in 24/7 enterprise environments. The EPYC 4565P features enterprise-grade error correction capabilities to protect against memory corruption and data loss. With comprehensive support for ECC memory, it ensures consistent data accuracy even under high-stress conditions.

The robust design and consistent firmware updates from AMD provide extended system longevity, allowing businesses to maintain infrastructure reliability over years of continuous operation. This makes the EPYC 4565P a future-proof investment for companies seeking dependable performance and system integrity.

Optimized for Multi-Threaded Workflows

The processor’s 16 cores and 32 threads provide the computational power necessary for handling multi-threaded workloads efficiently. Applications that rely heavily on parallel processing, such as CAD rendering, video encoding, and financial modeling, see significant performance gains when powered by the EPYC 4565P. Its combination of large L3 cache and fast inter-core communication ensures minimal data access latency and maximum throughput.

Support for Virtualization and Containerized Applications

Virtualized and containerized environments benefit from the processor’s strong isolation capabilities and high thread density. AMD’s Secure Encrypted Virtualization ensures that containerized workloads remain secure, even in shared infrastructure settings. This allows businesses to run critical applications with confidence, knowing that their data and workloads are protected by hardware-level encryption and isolation technologies.

Software and Operating System Compatibility

The EPYC 4565P processor is compatible with a wide range of enterprise-grade operating systems, including major Linux distributions such as Red Hat Enterprise Linux, Ubuntu Server, and SUSE Linux Enterprise Server, as well as Microsoft Windows Server environments. This ensures broad interoperability across diverse data center ecosystems and simplifies integration with existing software infrastructures.

Its optimization for virtualization technologies such as VMware ESXi, Citrix Hypervisor, and KVM ensures efficient resource allocation and workload balancing. This compatibility empowers IT administrators to deploy the processor in mixed virtualization environments without encountering performance bottlenecks or compatibility challenges.