AMD EPYC 9004 (4th Gen) 9354 Dotriaconta-core (32 Core) 3.25 GHz Processor

The AMD EPYC 9004 (4th Gen) 9354 Dotriaconta-core processor is engineered for data centers and HPC environments where performance must meet the toughest demands and efficiency remains a top priority. With a 32-core design and a base clock of 3.25 GHz, this 4th generation EPYC part is built to deliver substantial multi-threaded throughput for parallel workloads, while maintaining strong efficiency in dense server deployments. It embodies AMD’s ongoing focus on high-core-count, enterprise-class processing that can power virtualized workloads, large-scale analytics, and complex simulations in modern data centers. This processor represents a balance of raw compute power and practical reliability, designed to help enterprises maximize compute density without sacrificing reliability or manageability.

In environments that rely on virtualization, container orchestration, and data-intensive applications, the AMD EPYC 9004 9354 stands out by offering a large number of cores to accelerate multi-threaded tasks and improve service levels across multi-tenant deployments. Its architecture is tuned for data-center realities—where power efficiency, thermal performance, and stable, predictable behavior under load matter as much as peak speed. For organizations migrating toward cloud-native workloads, hybrid clouds, or on-premises HPC clusters, this processor provides a robust foundation for scalable performance, smoother workload distribution, and resilient operation under heavy throughput requirements.

• High-core-count multi-threaded power: With 32 cores, the 9354 Dotriaconta-core model is designed to excel at multi-threaded workloads, enabling faster parallel processing for database analytics, batch jobs, virtualization hosts, and large-scale simulations. The dense compute capability helps data centers run more workloads per server, improving overall utilization and throughput without sacrificing latency or predictability.
• 4th generation efficiency and performance balance: Built for the needs of modern data centers, this processor emphasizes performance-per-watt, helping operators maximize compute density while controlling energy costs. The 3.25 GHz base clock provides solid single-thread responsiveness for responsive service levels, while the additional cores deliver sustained throughput during peak periods.
• Enterprise-grade reliability and security: Designed for always-on environments, this EPYC part targets robust reliability and predictable operation under load. It is suited for virtualization, private clouds, and large-scale analytics where consistent performance and long-term stability are critical for meeting service-level objectives.
• Flexible deployment for dense servers and AI-ready workloads: The 32-core configuration supports versatile deployment in single-socket or multi-socket servers, enabling IT teams to scale compute resources as demand grows. Its enterprise-grade core count makes it a strong candidate for data-intensive workloads, analytics pipelines, and workloads that benefit from parallel processing without compromising latency.
• Future-ready data center foundation: As a 4th generation EPYC processor, it aligns with modern server ecosystems that require robust PCIe connectivity, virtualization acceleration, and scalable memory access. This combination helps data centers handle evolving workloads—from virtualization and containerized apps to high-throughput analytics and HPC benchmarks—without frequent platform changes.

Technical Details of [AMD EPYC 9004 (4th Gen) 9354 Dotriaconta-core (32 Core) 3.25 GHz Processor]

• Get this information from the "specifications" section of the product from https://ec.synnex.com/ using product "UPC" or "SKU" as reference

how to install AMD EPYC 9004 (4th Gen) 9354 Dotriaconta-core (32 Core) 3.25 GHz Processor

Installing a server-grade processor such as the AMD EPYC 9004 9354 requires careful handling and adherence to system-specific procedures. Below is a general guide suitable for many data-center platforms; always refer to your motherboard or server chassis manual for socket compatibility, warranty considerations, and vendor-recommended steps.

• Power down all equipment, unplug from power sources, and discharge static before handling components. Remove the server cover or access panel according to your vendor’s instructions to access the processor socket.
• Verify socket compatibility: ensure the motherboard supports 4th generation AMD EPYC processors and that the correct socket type, thermal solution, and mounting hardware are available for the EPYC 9004 9354. If you’re upgrading, remove the existing CPU and thermal interface material following the manufacturer’s guidelines.
• Open the CPU socket lever or locking mechanism, align the processor with the socket based on pin/notch orientation, and carefully seat the CPU without applying side pressure. Close and secure the socket latch, ensuring the processor sits flush and the cover is seated securely.
• Apply a suitable thermal interface material or ensure the existing heatsink’s thermal interface is in good condition. Install the heatsink and fan assembly (or other cooling solution) as per the server’s cooling design, ensuring even contact and proper mounting to avoid hotspots and thermal throttling.
• Power on the system and enter the BIOS/UEFI to verify CPU recognition, core count, and basic voltage/thermal readings. Update firmware/BIOS if needed, and configure operating modes (performance, power-saving, virtualization features) per your workload requirements. Install an operating system and drivers, then validate stability with representative workloads before production.

Frequently asked questions

• Q: What workloads is the AMD EPYC 9004 (4th Gen) 9354 best suited for?
• A: It is designed for demanding data-center tasks, including virtualization, large-scale analytics, HPC simulations, and dense server deployments where high core counts and reliable performance are essential.
• Q: What is the base clock speed of the 9354, and how does it impact performance?
• A: The 9354 features a base clock of 3.25 GHz, which supports solid single-thread responsiveness while allowing the 32 cores to deliver strong multi-threaded throughput for parallel workloads and latency-sensitive tasks.
• Q: Is this processor compatible with standard server motherboards?
• A: Compatibility depends on the motherboard socket, firmware, and platform support for the 4th generation AMD EPYC family. Always verify compatibility with the vendor’s compatibility list and update firmware to the recommended version before installation.
• Q: What kind of efficiency improvements can be expected with this generation?
• A: Data-center deployments typically see improved performance-per-watt and better core-density in dense server configurations, helping reduce total cost of ownership while maintaining high throughput for multi-threaded workloads.
• Q: How should I optimize performance for virtualization and cloud-native workloads?
• A: Enable virtualization features in the BIOS/UEFI, ensure adequate memory and I/O bandwidth, keep firmware up to date, and tailor scheduling, NUMA awareness, and resource allocation to the workload mix for consistent latency and throughput across virtual machines and containers.