Scalable, Secure, and Efficient Compute for Demanding Embedded Workloads

AMD EPYC™ Embedded delivers unmatched performance and efficiency for embedded applications in Networking, Storage, Industrial and more.

Performance Leadership

Up to 192 cores with industry-leading throughput and efficiency.

Scalable Architecture

Flexible core counts and configurations for any workload.

Advanced, End-to-End Security

Confidential computing, memory encryption, and platform attestation.

Long Lifecycle Support

Up to 10-year availability for embedded and industrial deployments.

Applications

Networking

Offers scalability, PCIe bandwidth, cryptographic acceleration, and hardened security for networking equipment, from switches and routers to edge gateways and 5G infrastructure.

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Security

Bring hardware-enforced trust, memory and VM encryption, crypto acceleration, and high I/O bandwidth, to security applications, such as firewalls, gateways, and VPN appliances, that demand both performance and data integrity.

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Storage

Offer high compute density, memory bandwidth, high PCIe lane counts, and strong security—all of which help to address the performance, scalability, and reliability demands of modern storage applications.

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Industrial Edge Server

Built for industrial edge servers, which operate in rugged, distributed, and latency-sensitive environments, these processors offer high compute density, plenty of I/O, strong security, and long lifecycle availability.

Healthcare

Enable hospitals, research institutions, and medical device providers to deliver faster diagnostics, secure patient care, and AI-driven insights—all while maintaining compliance with strict data protection standards.

Test and Measurement

Delivers multi-core performance, massive I/O bandwidth, hardware-level security, and long lifecycle support to test equipment. Enables real-time precision, secure data handling, and system consolidation, helping customers deliver faster, more reliable, and future-ready test solutions.

Portfolio

Explore Generations of AMD EPYC Embedded

AMD EPYC Embedded 7000 Series

Leveraging “Zen 2” and “Zen 3” core architecture, EPYC™ Embedded 7002 and 7003 target “always on” embedded systems requiring high-compute performance and I/O agility in a thermally adept profile.

Model Specifications

 

Core Architecture

Cores

Max L3 Cache

PCIe® Lanes

CPU Process Technology

Nominal (TDP)

Memory Channels

Support

EPYC™ Embedded 9005 Series

“Zen 5”, “Zen 5c”

8 to 192

Up to 512 MB

Up to 128 Gen 5

3nm, 4nm

125-500W

12x DDR5-6000

7 years

EPYC™ Embedded 9004 Series

“Zen 4”

16 to 96

Up to 384 MB

Up to 128 Gen 5

8 bonus lanes Gen 3

5nm

200-400W

12x DDR5-4800

7 years

EPYC™ Embedded 8004 Series

“Zen 4c” 12 to 64 Up to 128 MB Up to 64 Gen 5 5nm 100-200W 6x DDR5-4800 7 years

EPYC™ Embedded 7000 Series

“Zen 2” & “Zen 3”

8 to 64

Up to 256 MB

Up to 128 Gen 4

7nm

85-280W

8x DDR4-3200

7 years

EPYC™ Embedded 4005 Series

“Zen 5”

6 to 16

Up to 128 MB

Up to 28 Gen 5

4nm

65-170W

2x DDR5-5600

7 years

EPYC™ Embedded 3000 Series

“Zen”

4 to 16

Up to 32 MB

Up to 64 Gen 3

14nm

30-100W

4x DDR4-2666

10 years

Case Studies

Siselectron

AMD EPYC™ Embedded processors offer favorable density and power features that enable Televisa to deliver next-generation performance in its satellite distribution and broadcast cloud platforms.

Resources & Support

Embedded Board Partner Catalog

Compare up to five products, powered by AMD embedded processors, available from our technology partners.

Contact an Embedded Expert

Need further help? Fill out our form to be contacted by the AMD Embedded team.

Footnotes
  1. Video codec acceleration (including at least the HEVC (H.265), H.264, VP9, and AV1 codecs) is subject to and not operable without inclusion/installation of compatible media players. GD-176
  2. Testing conducted by AMD Performance Labs as of July 2020 on the Ryzen™ Embedded V2718 and June 2018 on the Ryzen Embedded V1605B processor both at 15 watts (STAPM mode enabled) using CinebenchR15 nt. Results may vary. EMB-169
  3. AMD "Zen 2" CPU-based system scored an estimated 15% higher than previous generation AMD “Zen” based system using estimated SPECint®_base2006 results. SPEC and SPECintare registered trademarks of the Standard Performance Evaluation Corporation. See www.spec.org. GD-141.
  4. Ryzen™ Embedded V2000 SoCs offer up to eight CPU cores. Ryzen™ Embedded V1000 SoCs offer up to four CPU cores. EMB-168
  5. Ryzen™ Embedded V2000 SoCs offer up to 20 lanes of PCIe Gen3. Ryzen™ Embedded V1000 SoCs offer up to 16 lanes of PCIe Gen3. EMB-167