AMD Advanced Micro Devices Inc

AMD (NASDAQ: AMD) today announced the expansion of its x86 embedded processor portfolio with the introduction of 5th Gen AMD EPYC™ Embedded processors.

AMD EPYC Embedded 9005 Series CPUs are optimized for embedded markets, balancing cutting-edge compute capabilities with purpose-built embedded features that enhance product longevity, reliability, system resiliency and ease of embedded application development. Powered by the proven “Zen 5” architecture, these processors deliver leadership performance and energy efficiency that enable networking, storage and industrial edge systems to process more data, faster and with greater efficiency.

“AI-driven network traffic, exploding data storage requirements and the expansion of industrial edge computing are driving the demand for higher compute performance in embedded platforms,” said Salil Raje, senior vice president and general manager, Adaptive and Embedded Computing, AMD. “5th Gen AMD EPYC Embedded processors bring leadership performance and efficiency to embedded customers, together with the long product lifecycles and enhanced system resiliency they rely on to design confidently and ensure continuous operations in demanding “always-on” environments.”

Leadership Core Density, Performance, and Energy Efficiency        AMD EPYC Embedded 9005 Series processors are designed to power compute-intensive embedded systems with support for core counts from 8 to 192 in a single socket. Industry-leading core density delivers up to a 1.3X and 1.6X increase in data processing throughput for networking and storage workloads, respectively,1,2 making the devices ideal for network and security firewall platforms, storage systems and industrial control applications.

Using the new “Zen 5c” core architecture offers higher throughput with greater energy efficiency, delivering up to an estimated 1.3X increase in socket throughput3 and an estimated 1.3X better performance/Watt4 compared to the competition. Capacity of up to 6TB of DDR5 memory per socket and expanded I/O connectivity, supporting up to 160 PCIe® Gen5 lanes with CXL® 2.0, enables storage capacity expansion and high-speed data transfers for networking and storage applications.

Purpose-Built, Application-Specific Features   AMD EPYC Embedded 9005 Series processors include a suite of advanced embedded features designed to provide a robust, secure, and long-lasting platform.

• Extended Longevity: To meet the longer product lifecycle and operational requirements of embedded markets, AMD EPYC Embedded 9005 Series CPUs provide extended 7-year product manufacturing support, helping system designers ensure long-term product availability, reducing redesign and qualification efforts. Additionally, AMD plans to extend design lifetime operation targets from 5 years on currently sampling AMD EPYC Embedded 9005 Series CPUs, to 7 years for production SKUs, ensuring long-term product stability for embedded systems. These extended design lifetime operation targets are critical for embedded systems running mission-critical applications in harsh conditions, minimizing unplanned downtime, repairs, and costly system replacements.
• System Resiliency and Security: Features include NTB (Non-Transparent Bridging) for increased high availability in fault tolerant multi-host configurations. NTB enhances system redundancy and failover capabilities for networking and storage systems by enabling data exchange between two CPUs in active-active configurations via PCI Express (PCIe®) to allow continued operation in case of a failure. DRAM Flush enhances reliability in mission-critical storage deployments by helping to prevent data loss in the event of a power failure by flushing it from DRAM to non-volatile memory.

Dual SPI (serial peripheral interface) enables customers to load a secure and proprietary bootloader to authenticate the platform, ensuring a trusted execution environment.

• Ease of application development: Built in Yocto framework support simplifies embedded system deployments by enabling the creation of custom Linux distributions that are tailored for the customer’s system. SPDK (Storage Performance Development Kit) and DPDK (Data Plane Development Kit) enhance system performance by handling data processing for network and storage workloads in user space drivers.

Industry Support and AvailabilityAMD is working closely with ecosystem partners and leading ODMs and OEMs, including Cisco and IBM, to bring the benefits of these next-generation embedded processors to market.

“We chose AMD EPYC Embedded 9005 Series processor for one of our high-end firewall products because it delivers the high compute performance that we need, from its scalability—up to 192 cores—to its high memory and I/O bandwidth,” said Lukasz Bromirski, Director of Product Management at Cisco. “We know we can count on AMD, not only for great performance, but also cutting-edge quality and support and consistent roadmap execution.”

“IBM Storage Scale System 6000 is designed to deliver speed, performance, and reliability for demanding enterprise AI workloads,” said Matthew Geiser, Product Management, IBM Storage for Data, AI and HPC. “One of the main benefits of the AMD EPYC Embedded 9005 processors is the introduction of redundant paths for high data availability and robust connectivity options, which will pair nicely with performance intensive applications running on IBM Storage Scale System.” 

AMD EPYC Embedded 9005 Series processors are currently sampling with early access customers, with production shipments expected to begin in the second quarter of 2025. The AMD EPYC Embedded 9005 Series processors come in the SP5 socket form factor, which is compatible with the prior generation AMD EPYC Embedded 9004 Series, to provide a simple upgrade path for customers.

Supporting Resources

• Learn more about AMD EPYC Embedded 9005 Series CPUs
• Access the Product Brief and product table
• Connect with AMD on LinkedIn
• Follow AMD on X

About AMDFor more than 50 years AMD has driven innovation in high-performance computing, graphics, and visualization technologies. Billions of people, leading Fortune 500 businesses, and cutting-edge scientific research institutions around the world rely on AMD technology daily to improve how they live, work, and play. AMD employees are focused on building leadership high-performance and adaptive products that push the boundaries of what is possible. For more information about how AMD is enabling today and inspiring tomorrow, visit the AMD (NASDAQ: AMD) website, blog, LinkedIn and X pages.

©2025 Advanced Micro Devices, Inc. All rights reserved. AMD, the AMD Arrow logo, EPYC, and combinations thereof are trademarks of Advanced Micro Devices, Inc. CXL is a trademark of Compute Express Link Consortium, Inc. PCI, PCIe, and PCI Express are trademarks of PCI-SIG and used under license. Yocto Project is a registered trademark of The Linux Foundation. Other product names used herein are for identification purposes and may be trademarks of their respective owners. 

"Zen 5" is a code name for AMD architecture and is not a product name (GD-122).

Media Contacts:

Brian Garabedian AMD Communications+1 408-386-4621 Brian.Garabedian@AMD.com

Matt RamsayAMD Investor Relations+1 512-496-0197Matthew.Ramsay@AMD.com

1 Based on testing by AMD in February 2025, using the DPDK-L3FWD benchmark to measure the throughput uplift of the 5th Gen AMD EPYC Embedded 9655 (96c/192T/@400W TDP) CPU, versus the 4th Gen EPYC Embedded 9654 CPU (96c/192T/@400W TDP). Stated throughput uplift is based on a geomean of the scores recorded for each processor over 4/8/16 cores. Results will vary based on settings, configuration, usage, and other factors. (EEB-002)

2 Based on testing by AMD in February 2025, using the ISA-L and ISA-L Crypto libraries on warm (8KB data size) and cold (64MB data size) settings, to test the performance of the 5th Gen AMD EPYC Embedded 9455 processor (48c/96T/@300W) configured on an AMD reference platform, with single-rank 576GB DDR5 (24x 24GB DIMMs @6000 MT/s) memory, Ubuntu 22.04 O/S (default settings) and custom BIOS settings (Boost frequency enable, NPS1) versus a similarly configured 4th Gen AMD EPYC Embedded 9454 processor (48c/96T/@290W). Results are based on a geomean of the scores recorded on warm and cold settings. Results will vary based on configuration, settings, usage, and other factors. (EEB-001)

3 Estimated integer throughput uplift is based on 5th Gen AMD EPYC 9965 processor test results compared to 6th Gen Intel Xeon 6980P processor test results, on the SPECrate®2017_int_base benchmark. Scores published on Spec.org in December 2024. Results may vary based on settings, configuration, usage, and other factors. SPEC® and SPECrate are registered trademarks of the Standard Performance Evaluation Corporation. See www.spec.org for more information. AMD EPYC 9965 CPU Scores: https://www.spec.org/cpu2017/results/res2024q4/cpu2017-20241004-44979.html. INTEL XEON 6980P CPU Scores: https://spec.org/cpu2017/results/res2025q1/cpu2017-20241230-45863.html (EEB-005)

4 Estimated results based on 5th Gen EPYC Embedded 9965 processor test results compared to 6th Gen Intel Xeon 6980 processor test results, on the SPECrate®2017_int_base benchmark. Scores published on Spec.org in December 2024. Results may vary based on settings, configuration, usage, and other factors. SPEC® and SPECrate are registered trademarks of the Standard Performance Evaluation Corporation. See www.spec.org for more information. AMD EPYC Embedded 9965 CPU Scores (performance score 3100 @ 1000W- Perf/W-3.1): https://www.spec.org/cpu2017/results/res2024q4/cpu2017-20241004-44979.html INTEL XEON 6980P CPU Scores (performance score 2420 @ 1000W- Perf/W- 2.4): https://spec.org/cpu2017/results/res2025q1/cpu2017-20241230-45863.html (EEB-010)

A photo accompanying this announcement is available at https://www.globenewswire.com/NewsRoom/AttachmentNg/1e69d78a-1034-48d5-b1db-4e8995a90729