AMD Epyc Embedded 9005: 8 to 192 Zen-5(c) Cores for More Industries
AMD Unveils 5th Gen EPYC Embedded Processors at Embedded World 2025
Table of Contents
- AMD Unveils 5th Gen EPYC Embedded Processors at Embedded World 2025
- AMD 5th Gen EPYC Embedded Processors: Your Questions Answered
- What are the AMD 5th Gen EPYC Embedded Processors?
- When will the AMD EPYC Embedded 9005 series be available?
- What are the key features of the AMD EPYC Embedded 9005 processors?
- What is the SP5 socket, and why is it significant?
- What kind of long-term support can I expect?
- What are the target applications for the AMD EPYC Embedded 9005 series?
- Can the AMD EPYC Embedded 9005 processors be customized?
- How do the AMD EPYC Embedded 9005 processors differ from standard EPYC processors?
- Which companies are adopting the AMD EPYC Embedded 9005 on a large scale?
- Key Features Compared: AMD EPYC Embedded 9005
- what are the benefits of choosing AMD EPYC Embedded Processors?
At Embedded World 2025, AMD introduced its new EPYC processors, designed to integrate 8 to 192 Zen 5(c) cores into various industrial applications. Aligning with previous generations, these embedded processors aim for broad compatibility with standard models. The EPYC Embedded 9005 series is slated to begin shipping in the second quarter.
Long-Term Support and Compatibility
Embedded solutions demand longevity. The AMD EPYC Embedded 9005, codenamed Turin, will adhere to the industry standard of at least seven years of support, exceeding the five years previously offered for larger EPYC processors. These new processors will continue to utilize the SP5 socket, initially introduced with the preceding EPYC (embedded) 9004, codenamed Genoa. This ensures a lifespan of over a decade with the new introductions. according to AMD, Cisco and IBM are among the first companies to adopt the AMD EPYC Embedded 9005 on a large scale.
Versatile Applications Beyond the Datacenter
While the large server form factor may resemble a typical datacenter product, AMD clarified that the request areas are more diverse. These include smaller single-slot systems and customized dual-socket solutions on appropriate boards.
Customization and Unique Features
Despite the new lineup appearing similar to existing AMD offerings, there are notable adjustments. The new embedded processors do not include the highest clock speed variants, but AMD maintains the maximum core count. During Embedded World 2025, AMD stated that a market exists for high core count processors, particularly in storage and large firewall support systems.
According to AMD,exclusive features are available only in the embedded segment,such as the ability to quickly transfer data between DRAM and NVMe ssds during power failures.
Tailored Solutions for Specific Needs
AMD confirmed its willingness to customize models based on large customer requests. These customizations primarily involve adjusting the clock speed range and corresponding TDP, rather than altering the core count.
Key Features of EPYC processors
The EPYC processors leverage the SP5 platform, familiar from datacenter applications, and offer:
- Up to 160 PCIe Lanes
- 12-channel memory with speeds up to 6,000 MT/s
- optional memory capacity of up to 6 TByte per socket
AMD 5th Gen EPYC Embedded Processors: Your Questions Answered
At Embedded World 2025, AMD unveiled its 5th Generation EPYC Embedded processors. These new processors, based on the Zen 5 architecture, promise to bring significant advancements to various embedded applications. Here’s a comprehensive Q&A to address your questions about these exciting new offerings.
What are the AMD 5th Gen EPYC Embedded Processors?
These are the latest embedded processors from AMD, designed for industrial applications, integrating 8 to 192 Zen 5(c) cores.The EPYC Embedded 9005 series, codenamed Turin, focuses on delivering high performance with a wide range of core counts for diverse embedded systems.
When will the AMD EPYC Embedded 9005 series be available?
The AMD EPYC Embedded 9005 series is slated to begin shipping in the second quarter of 2025.
What are the key features of the AMD EPYC Embedded 9005 processors?
The EPYC Embedded 9005 processors offer several key features:
Zen 5 Architecture: Utilizes the latest Zen 5 cores for improved performance and efficiency.
High Core Count: Available with 8 to 192 cores, catering to a wide range of workloads.
Long-Term Support: Adheres to an industry standard of at least seven years of support.
SP5 Socket Compatibility: uses the SP5 socket, ensuring compatibility with existing platforms.
High Memory Capacity: supports up to 6 TB of memory per socket.
Extensive PCIe Lanes: Offers up to 160 PCIe lanes for high-speed connectivity.
12-channel memory: Supports memory speeds up to 6,000 MT/s.
Unique Embedded Features: offers exclusive features like rapid data transfer between DRAM and NVMe SSDs during power failures.
What is the SP5 socket, and why is it significant?
The SP5 socket is the CPU socket used by the AMD EPYC Embedded 9005 series. Its importance lies in:
Compatibility: It maintains compatibility with the preceding EPYC (embedded) 9004 series (Genoa), ensuring a smooth upgrade path.
Longevity: The use of the SP5 socket aims for a platform lifespan of over a decade, reducing the need for frequent hardware changes.
What kind of long-term support can I expect?
The AMD EPYC Embedded 9005 series will receive at least seven years of support. This extended support is crucial for embedded solutions that demand longevity and stability,exceeding the five years previously offered for larger EPYC processors.
What are the target applications for the AMD EPYC Embedded 9005 series?
While the server form factor might suggest datacenter use, these processors target a diverse range of applications, including:
smaller single-slot systems
Customized dual-socket solutions
Storage systems
Large firewall support systems
These processors cater to compute-intensive embedded systems that demand high performance in space- and power-constrained environments.
Can the AMD EPYC Embedded 9005 processors be customized?
Yes, AMD is willing to customize models based on large customer requests. These customizations typically involve adjusting the clock speed range and corresponding TDP (Thermal Design power) to meet specific power and performance requirements. The core count, however, generally remains consistent.
How do the AMD EPYC Embedded 9005 processors differ from standard EPYC processors?
While similar to existing AMD offerings, there are several key differences:
Clock Speeds: The embedded processors do not include the highest clock speed variants found in standard EPYC processors.
Focus on Core Count: AMD is prioritizing high core count processors for the embedded segment, particularly for storage and firewall applications.
Embedded-Specific Features: Exclusive features, such as the ability to quickly transfer data between DRAM and NVMe SSDs during power failures, are available only in the embedded segment.
Which companies are adopting the AMD EPYC Embedded 9005 on a large scale?
According to AMD, Cisco and IBM are among the first companies to adopt the AMD EPYC Embedded 9005 on a large scale, demonstrating the industry’s confidence in these new processors.
Key Features Compared: AMD EPYC Embedded 9005
| Feature | Description |
| —————— | —————————————————————————– |
| Architecture | Zen 5 |
| Core Count | 8 to 192 cores |
| Socket | SP5 |
| Memory Support | 12-channel,up to 6,000 MT/s,up to 6 TB per socket |
| PCIe Lanes | Up to 160 |
| Support Lifespan | At least 7 years |
| Target Applications | Single-slot systems,dual-socket solutions,storage,firewall,industrial |
| Customization | Clock speed and TDP adjustments available based on customer requests |
what are the benefits of choosing AMD EPYC Embedded Processors?
High Performance: Leveraging the Zen 5 architecture for demanding workloads.
Scalability: wide range of core counts (8-192) enables optimized performance for various applications
Long-Term Availability: Ensuring a stable platform for embedded systems with extended support.
* Reliability: SP5 socket enabling backwards compatibility and long-term scalability.