HPE AMD EPYC 9004 9354P Dotriaconta-core (32 Core) 3.25 GHz Processor Upgrade

Enhance your enterprise server performance with the HPE AMD EPYC 9004 9354P Dotriaconta-core processor upgrade. Engineered for reliability, scalability, and sustained throughput, this 32-core, 64-thread powerhouse delivers a strong foundation for virtualization, database workloads, data analytics, and AI-infused applications. Built for Socket SP5 configurations in the EPYC product line, it offers a robust blend of clock speed, large cache, and high efficiency to help data centers unlock denser compute, faster response times, and improved service levels. Whether you’re refreshing an aging server, expanding virtualized environments, or accelerating demanding workloads, this upgrade is designed to deliver enterprise-grade performance with consistent, predictable behavior under load.

• Massive multi-core performance for critical workloads: With 32 cores and 64 threads, paired with a base clock of 3.25 GHz and a boost clock up to 3.80 GHz, this EPYC upgrade is tailored for compute-heavy environments. The substantial 256 MB L3 cache helps reduce memory bottlenecks, enabling faster data access for virtualization hosts, big data analytics, and large-scale databases. This combination translates into quicker instance provisioning, improved throughput for concurrent users, and smoother performance under peak demand.
• Enterprise-grade reliability and scalability: Designed for server deployments, the EPYC 9004 family emphasizes reliability, consistent latency, and steady performance at scale. The 280 W thermal envelope is matched with advanced cooling and firmware integrations typical of HPE configurations, helping maintain stable operation in dense data-center racks and multi-socket environments. This upgrade is optimized to integrate with existing HPE server ecosystems, delivering predictable performance as workloads grow and evolve over time.
• Optimized for virtualization, databases, and analytics: Ideal for virtualized hosts, database servers, and data analytics pipelines, the 9354P upgrade provides the headroom needed to run more VMs, accelerate query processing, and improve multi-user responsiveness. The 64-thread design ensures efficient thread scheduling, while the large L3 cache lowers latency for frequently accessed data. Operators can expect improved consolidation ratios, reduced I/O wait times, and faster analytics cycles across modern workloads.
• SP5 socket compatibility and EPYC product line integration: This processor upgrade uses the SP5 socket and is built to align with the EPYC product line, enabling straightforward integration into compatible HPE servers. By leveraging the SP5 ecosystem, users can leverage contemporary server features, firmware optimizations, and tested compatibility with enterprise-grade motherboards and cooling solutions. This makes it a practical upgrade path for organizations seeking to refresh performance without a complete platform swap.
• Value-driven upgrade for long-term IT strategy: Investing in a high-core-count EPYC upgrade helps extend server lifecycles, reduce total cost of ownership, and minimize disruptive migrations. With a balanced mix of raw compute power, large cache, and scalable architecture, this upgrade supports a broad range of workloads—from virtual desktops and containerized apps to large-scale transactional systems—while leaving room for future growth and modernization.

Technical Details of HPE AMD EPYC 9004 9354P Dotriaconta-core (32 Core) 3.25 GHz Processor Upgrade

• Socket type: SP5
• Cores: 32
• Threads: 64
• Base clock: 3.25 GHz
• Boost clock: Up to 3.80 GHz
• Cache: 256 MB L3
• TDP: 280 W
• Target platform: EPYC product line with Socket SP5 compatibility

How to install HPE AMD EPYC 9004 9354P Dotriaconta-core (32 Core) 3.25 GHz Processor Upgrade

• Verify motherboard compatibility and firmware readiness. Confirm that your server board in the HPE ecosystem supports Socket SP5 and the EPYC 9004 family, and ensure BIOS/firmware is updated to the latest version before installation to avoid compatibility issues.
• Power down the system and disconnect all power sources. Ground yourself to prevent static discharge, and remove the server cover to access the processor socket and heatsink assembly.
• Carefully remove the existing CPU if performing a direct upgrade. Align the new EPYC 9004 9354P with the SP5 socket using the alignment notches, seat it firmly, and rotate or lock according to the motherboard’s socket design to ensure proper contact.
• Apply an appropriate thermal interface material and reinstall the heatsink/cooling solution. Ensure even pressure and proper mounting to maintain optimal cooling performance, which is critical for a 280 W TDP processor at sustained load.
• Power on and enter the system BIOS to verify CPU recognition. Update BIOS/firmware if prompted and configure the system for optimal performance, including virtualization settings, NUMA considerations, and energy-management policies as required by your workloads.

Frequently asked questions

• What is the AMD EPYC 9004 9354P Dotriaconta-core? It is a 32-core, 64-thread server processor in the AMD EPYC 9004 family designed for SP5 socket platforms, delivering high-density compute for enterprise workloads.
• Which socket does this upgrade use? The processor uses the Socket SP5 interface, suitable for compatible HPE servers and EPYC-compatible boards that support SP5 processors.
• What workloads benefit most from this upgrade? Virtualization hosts, large databases, analytics engines, and AI-enabled data processing benefit from the increased core count, large L3 cache, and elevated boost clock.
• What is the cache and memory impact? The upgrade provides 256 MB of L3 cache, helping reduce access latency for frequently used data and improving throughput for multi-threaded workloads.
• How important is cooling for this CPU? Very important. With a 280 W TDP, effective cooling and proper airflow are essential to maintain performance and reliability under sustained workloads.