HPE AMD EPYC 7003 7713P Tetrahexaconta-core (64 Core) 2 GHz Processor Upgrade

Unlock unparalleled multi-threaded performance with the HPE AMD EPYC 7003 7713P processor upgrade. Engineered for demanding data center workloads, this 64-core, 128-thread powerhouse is designed to accelerate virtualization, databases, HPC simulations, and large-scale analytics. With a base clock of 2.0 GHz and a maximum boost clock up to 3.68 GHz, it delivers exceptional throughput while preserving efficiency for enterprise environments. Built for the SP3 socket and the EPYC product line, this upgrade transforms server capability without compromising reliability, scalability, or manageability—making it an ideal choice for organizations seeking to extend the life and performance of their infrastructure.

• Performance and scalability: The 64 cores and 128 threads deliver impressive parallelism for virtualization, database workloads, in-memory analytics, and HPC tasks. With a 256 MB L3 cache, data-intensive applications enjoy reduced latency and faster access to frequently used data, enabling smoother operation under heavy load. The boost clock of up to 3.68 GHz ensures burst performance for short-duration tasks, accelerates single-threaded components of mixed workloads, and improves responsiveness in complex enterprise applications.
• Enterprise-grade reliability and compatibility: This processor upgrade is designed for SP3 socket deployments within the HPE EPYC ecosystem. It supports the high-density, mission-critical workloads typical of data centers, co-locating with enterprise-grade platforms and server-grade memory configurations. The upgrade is intended to integrate with compatible motherboards and firmware in the EPYC product line, providing a seamless path to higher core density and improved throughput without a complete platform overhaul.
• Power and thermal efficiency for data centers: With a Thermal Design Power (TDP) of 225 W, the EPYC 7713P is optimized for servers equipped with advanced cooling solutions and robust power delivery. This balance of performance and efficiency helps data centers maintain operational reliability, reduce processor stalls during peak workloads, and sustain performance levels during long-running tasks while meeting power and cooling constraints typical of modern facilities.
• Advanced workload handling for modern apps: The combination of 64 cores, 128 threads, and substantial cache supports diverse modern workloads—from virtualized environments and containerized microservices to large-scale data processing and machine-learning inference at scale. The processor’s architecture is tuned to minimize bottlenecks in multi-threaded scenarios, enabling consistent performance across concurrent tasks and enabling more efficient resource utilization in consolidated server environments.
• Flexible upgrade path and deployment: This EPYC upgrade provides a straightforward path to increasing compute density in existing servers that use SP3 sockets. It enables organizations to extend the life of current hardware, improve performance per watt, and achieve greater throughput for business-critical applications without a complete system replacement. The upgrade is suitable for data centers, enterprise IT departments, and workloads that demand high parallelism and rapid data access, such as ERP, CRM analytics, and synthetic workloads used in research and development environments.

Technical Details of HPE AMD EPYC 7003 7713P Tetrahexaconta-core (64 Core) 2 GHz Processor Upgrade

• CPU Model: AMD EPYC 7713P
• Cores: 64
• Threads: 128
• Base Clock: 2.0 GHz
• Boost Clock: Up to 3.68 GHz
• Cache: 256 MB L3
• Socket: SP3
• TDP: 225 W

How to install HPE AMD EPYC 7003 7713P

• Power down the server completely and disconnect all power sources. Open the chassis and locate the SP3 socket on the motherboard. Ensure you are working on a static-free surface and wearing proper anti-static protection.
• Remove the existing processor (if applicable) according to the server model’s service manual. Clean the socket area if needed and inspect the socket pins for any damage before installing the new CPU.
• Align the AMD EPYC 7713P with the SP3 socket using the documented pin-1 indicator or alignment notch. Gently seat the processor into the socket, ensuring even contact across all contact points. Apply the recommended thermal interface material (TIM) if required, following the motherboard or cooler manufacturer’s guidelines.
• Install the appropriate server cooling solution and secure it according to the system’s specifications. Verify that the heatsink is properly fastened and that thermal sensors are connected to enable accurate monitoring of temperatures during operation.
• Power on the server and enter the BIOS/firmware setup. Update to the latest BIOS version if needed to ensure full support for the EPYC 7003 family. Save changes and boot into the operating system. Run a post-install diagnostic and stress test to verify stability, per-core frequencies, and thermal performance under representative workloads.

Frequently asked questions

• Q: What is the AMD EPYC 7713P 64-core processor? A: It is a high-density server processor from AMD’s EPYC 7003 family, offering 64 cores, 128 threads, a 256 MB L3 cache, and a boost clock up to 3.68 GHz, designed for performance-critical data center workloads on SP3 sockets.
• Q: What workloads suit this processor upgrade? A: It is well-suited for virtualization, large-scale databases, HPC simulations, real-time analytics, and other multi-threaded enterprise workloads that benefit from high core counts and large caches.
• Q: What type of motherboard and infrastructure is required? A: The upgrade requires a motherboard with an SP3 socket compatible with AMD EPYC 7003-series processors and firmware that supports this family. It is designed for enterprise servers and the HPE EPYC product line ecosystem.
• Q: What are the thermal and power considerations? A: The processor has a 225 W TDP, so appropriate cooling and power delivery are essential. Ensure your server chassis and cooling solution can sustain sustained workloads without thermal throttling and that the firmware is configured for stable power management.
• Q: Can this upgrade improve virtualization density and data throughput? A: Yes. With 64 cores and 128 threads, virtualization environments can support more virtual machines per host, while the large 256 MB cache reduces memory access latency, helping optimize data throughput and overall system responsiveness in dense deployments.
• Q: Is the upgrade compatible with all HP/HPE servers? A: Compatibility is designed for SP3 sockets within the EPYC product line. Always verify motherboard compatibility and BIOS/firmware support for the exact server model before upgrading to ensure proper recognition and performance gains.