Supermicro Delivers Best-In-Class Cost and Density Per Server Instance with the New MicroCloud, a Multi-Node Solution for Lightweight Entry Class Workloads Powered by AMD EPYC™ 4005 Series Processors

• Delivers 3.3x more density than traditional 1U servers, maximizing savings on data center rack space, power, and lowering overall TCO 
• Offers up to 10 physically separated server nodes per chassis, 2080 cores per 42U rack and a TDP as low as 65W per server

SAN JOSE, Calif., May 13, 2025 /PRNewswire/ -- Supermicro, Inc. (NASDAQ: SMCI), a Total IT Solution Provider for AI, Cloud, Storage, and 5G/Edge, is announcing that a number of Supermicro servers are now shipping with the latest addition to the AMD based EPYCâ„¢ 4000 series CPUs, the AMD EPYCâ„¢ 4005 Series processors. These servers are optimized to deliver a powerful balance of performance density, scalability, and affordability. Supermicro will feature its new Supermicro MicroCloud multi-node solution, a 10-node CPU and a 5-node CPU + GPU version, in a 3U form factor, ideal for organizations seeking to optimize space, energy, and cost of their IT infrastructure. Supermicro's MicroCloud product family targets dedicated hosting markets where sharing the chassis, power, and cooling are desired while still maintaining physical separation.

"Supermicro continues to deliver first-to-market innovative rack-scale solutions for a wide range of use cases, with the addition of our new Supermicro MicroCloud multi-node solution that feature the latest AMD EPYC 4005 Series processors, designed to optimize the needs of on-premises or cloud service providers who need powerful but cost-effective solutions in a compact 3U form factor," said Mory Lin, Vice President, IoT/Embedded & Edge Computing at Supermicro. "These servers offer up to 2080 cores on a standard 42U rack, greatly reducing data center rack space and overall TCO for enterprise and small medium businesses."

Learn more about Supermicro Servers with AMD EPYC 4005 Series CPUs https://www.supermicro.com/en/featured/epyc-4000-series

The Supermicro MicroCloud server product family utilizes Supermicro's industry-proven design, scalable up to 10 CPU nodes or up to 5 CPU + GPU node per chassis. Supermicro is adding the AMD EPYC 4005 Series CPUs to its latest portfolio of entry class data center solutions supporting a wide range of systems, from 1U, 2U, and Tower systems, as well as the innovative 3U multi-node Supermicro MicroCloud servers. With up to 10 server nodes in only 3U of rack space, customers can increase their computing density by over 3.3x compared to industry standard 1U rackmount servers. The new AMD EPYC 4005 Series CPUs offer up to 16 cores and clock speeds up to 5.7 GHz— enabling options to support high-performance peripherals through two PCIe 5.0 x8 add-on cards or one x16 full-height full-width GPU. This 3U multi-node Supermicro MicroCloud system with its space-saving design and low power consumption, is optimized for web and dedicated hosting, cloud gaming, and content delivery networks.

"Supermicro and AMD have been collaborating since the 1st Gen EPYCâ„¢ 4000 series products, and it's incredible to see the strides we've made together in our newest EPYCâ„¢ 4005 Series CPUs combined with Supermicro's MicroCloud servers for demanding enterprise cloud and AI driven workloads," said Derek Dicker, corporate vice president, Enterprise and HPC Business, AMD. "We work closely with Supermicro and other partners to develop differentiated processors for cost-effective enterprise solutions. The memory and I/O feature sets, combined with our latest 'Zen 5' architecture, give our technology partners the flexibility to create powerful yet affordable systems that meet the specific needs of growing businesses and data centers."

"As organizations look to do more with less, especially in environments dealing with space and power constraints, solutions like Supermicro's MicroCloud powered by AMD's EPYC 4005 Series Processors stand out for their ability to drastically improve compute density without sacrificing performance," said Alvin Nguyen, Senior Analyst at Forrester. "This type of multi-node, modular architecture is particularly well-suited for IT service providers and SMBs looking to save on data center rack space, reduce power, and lower overall TCO, as well as scale efficiently across workloads."

Supermicro's servers provide dedicated server platforms for businesses or service providers looking to expand new opportunities with powerful, AI-driven, solutions that are energy and space saving with features like shared power and cooling. AMD EPYCâ„¢ 4005 Series Processors with highly efficient "Zen 5" core architecture include processor core counts from 6 to 16 cores, TDP as low as 65W, and include a model that features integrated AMD 3D V-Cacheâ„¢ technology for larger L3 cache and lower latency. With dual channels of fast DDR5 memory (up to 192GB capacity), and 28 lanes of PCIe^® Gen 5 expandability, these processors provide a low power and high-density platform supporting a broad set of everyday and all-day business processing needs.

These servers are designed for small and medium businesses, departmental and branch office server customers, and hosted IT service providers based on its compelling combination of affordability, performance, and ease of management. AMD EPYC 4005 Series processors are built to deliver strong general-purpose server workload performance in a streamlined, single-socket package.

The following systems contain the AMD EPYCâ„¢ 4005 Series Processor:

MicroCloud 10 Nodes
https://www.supermicro.com/en/products/system/microcloud/3u/as-3015mr-h10tnr

MicroCloud 5 Nodes
https://www.supermicro.com/en/products/system/microcloud/3u/as-3015mr-h5tnr

Mainstream, 1U
https://www.supermicro.com/en/products/system/mainstream/1u/as-1015a-mt

Mainstream, 2U
https://www.supermicro.com/en/products/system/mainstream/2u/as-2015a-tr   (2U)

Tower Servers
https://www.supermicro.com/en/products/system/mainstream/tower/as-3015a-i

About Super Micro Computer, Inc.

Supermicro (NASDAQ: SMCI) is a global leader in Application-Optimized Total IT Solutions. Founded and operating in San Jose, California, Supermicro is committed to delivering first to market innovation for Enterprise, Cloud, AI, and 5G Telco/Edge IT Infrastructure. We are a Total IT Solutions provider with server, AI, storage, IoT, switch systems, software, and support services. Supermicro's motherboard, power, and chassis design expertise further enables our development and production, enabling next generation innovation from cloud to edge for our global customers. Our products are designed and manufactured in-house (in the US, Asia, and the Netherlands), leveraging global operations for scale and efficiency and optimized to improve TCO and reduce environmental impact (Green Computing). The award-winning portfolio of Server Building Block Solutions® allows customers to optimize for their exact workload and application by selecting from a broad family of systems built from our flexible and reusable building blocks that support a comprehensive set of form factors, processors, memory, GPUs, storage, networking, power, and cooling solutions (air-conditioned, free air cooling or liquid cooling). 

Supermicro, Server Building Block Solutions, and We Keep IT Green are trademarks and/or registered trademarks of Super Micro Computer, Inc.

All other brands, names, and trademarks are the property of their respective owners.

• Delivers 3.3x more density than traditional 1U servers, maximizing savings on data center rack space, power, and lowering overall TCO 
• Offers up to 10 physically separated server nodes per chassis, 2080 cores per 42U rack and a TDP as low as 65W per server

SAN JOSE, Calif., May 13, 2025 /PRNewswire/ -- Supermicro, Inc. (NASDAQ: SMCI), a Total IT Solution Provider for AI, Cloud, Storage, and 5G/Edge, is announcing that a number of Supermicro servers are now shipping with the latest addition to the AMD based EPYCâ„¢ 4000 series CPUs, the AMD EPYCâ„¢ 4005 Series processors. These servers are optimized to deliver a powerful balance of performance density, scalability, and affordability. Supermicro will feature its new Supermicro MicroCloud multi-node solution, a 10-node CPU and a 5-node CPU + GPU version, in a 3U form factor, ideal for organizations seeking to optimize space, energy, and cost of their IT infrastructure. Supermicro's MicroCloud product family targets dedicated hosting markets where sharing the chassis, power, and cooling are desired while still maintaining physical separation.

"Supermicro continues to deliver first-to-market innovative rack-scale solutions for a wide range of use cases, with the addition of our new Supermicro MicroCloud multi-node solution that feature the latest AMD EPYC 4005 Series processors, designed to optimize the needs of on-premises or cloud service providers who need powerful but cost-effective solutions in a compact 3U form factor," said Mory Lin, Vice President, IoT/Embedded & Edge Computing at Supermicro. "These servers offer up to 2080 cores on a standard 42U rack, greatly reducing data center rack space and overall TCO for enterprise and small medium businesses."

Learn more about Supermicro Servers with AMD EPYC 4005 Series CPUs https://www.supermicro.com/en/featured/epyc-4000-series

The Supermicro MicroCloud server product family utilizes Supermicro's industry-proven design, scalable up to 10 CPU nodes or up to 5 CPU + GPU node per chassis. Supermicro is adding the AMD EPYC 4005 Series CPUs to its latest portfolio of entry class data center solutions supporting a wide range of systems, from 1U, 2U, and Tower systems, as well as the innovative 3U multi-node Supermicro MicroCloud servers. With up to 10 server nodes in only 3U of rack space, customers can increase their computing density by over 3.3x compared to industry standard 1U rackmount servers. The new AMD EPYC 4005 Series CPUs offer up to 16 cores and clock speeds up to 5.7 GHz— enabling options to support high-performance peripherals through two PCIe 5.0 x8 add-on cards or one x16 full-height full-width GPU. This 3U multi-node Supermicro MicroCloud system with its space-saving design and low power consumption, is optimized for web and dedicated hosting, cloud gaming, and content delivery networks.

"Supermicro and AMD have been collaborating since the 1st Gen EPYCâ„¢ 4000 series products, and it's incredible to see the strides we've made together in our newest EPYCâ„¢ 4005 Series CPUs combined with Supermicro's MicroCloud servers for demanding enterprise cloud and AI driven workloads," said Derek Dicker, corporate vice president, Enterprise and HPC Business, AMD. "We work closely with Supermicro and other partners to develop differentiated processors for cost-effective enterprise solutions. The memory and I/O feature sets, combined with our latest 'Zen 5' architecture, give our technology partners the flexibility to create powerful yet affordable systems that meet the specific needs of growing businesses and data centers."

"As organizations look to do more with less, especially in environments dealing with space and power constraints, solutions like Supermicro's MicroCloud powered by AMD's EPYC 4005 Series Processors stand out for their ability to drastically improve compute density without sacrificing performance," said Alvin Nguyen, Senior Analyst at Forrester. "This type of multi-node, modular architecture is particularly well-suited for IT service providers and SMBs looking to save on data center rack space, reduce power, and lower overall TCO, as well as scale efficiently across workloads."

Supermicro's servers provide dedicated server platforms for businesses or service providers looking to expand new opportunities with powerful, AI-driven, solutions that are energy and space saving with features like shared power and cooling. AMD EPYCâ„¢ 4005 Series Processors with highly efficient "Zen 5" core architecture include processor core counts from 6 to 16 cores, TDP as low as 65W, and include a model that features integrated AMD 3D V-Cacheâ„¢ technology for larger L3 cache and lower latency. With dual channels of fast DDR5 memory (up to 192GB capacity), and 28 lanes of PCIe^® Gen 5 expandability, these processors provide a low power and high-density platform supporting a broad set of everyday and all-day business processing needs.

These servers are designed for small and medium businesses, departmental and branch office server customers, and hosted IT service providers based on its compelling combination of affordability, performance, and ease of management. AMD EPYC 4005 Series processors are built to deliver strong general-purpose server workload performance in a streamlined, single-socket package.

The following systems contain the AMD EPYCâ„¢ 4005 Series Processor:

MicroCloud 10 Nodes
https://www.supermicro.com/en/products/system/microcloud/3u/as-3015mr-h10tnr

MicroCloud 5 Nodes
https://www.supermicro.com/en/products/system/microcloud/3u/as-3015mr-h5tnr

Mainstream, 1U
https://www.supermicro.com/en/products/system/mainstream/1u/as-1015a-mt

Mainstream, 2U
https://www.supermicro.com/en/products/system/mainstream/2u/as-2015a-tr   (2U)

Tower Servers
https://www.supermicro.com/en/products/system/mainstream/tower/as-3015a-i

About Super Micro Computer, Inc.

Supermicro (NASDAQ: SMCI) is a global leader in Application-Optimized Total IT Solutions. Founded and operating in San Jose, California, Supermicro is committed to delivering first to market innovation for Enterprise, Cloud, AI, and 5G Telco/Edge IT Infrastructure. We are a Total IT Solutions provider with server, AI, storage, IoT, switch systems, software, and support services. Supermicro's motherboard, power, and chassis design expertise further enables our development and production, enabling next generation innovation from cloud to edge for our global customers. Our products are designed and manufactured in-house (in the US, Asia, and the Netherlands), leveraging global operations for scale and efficiency and optimized to improve TCO and reduce environmental impact (Green Computing). The award-winning portfolio of Server Building Block Solutions® allows customers to optimize for their exact workload and application by selecting from a broad family of systems built from our flexible and reusable building blocks that support a comprehensive set of form factors, processors, memory, GPUs, storage, networking, power, and cooling solutions (air-conditioned, free air cooling or liquid cooling). 

Supermicro, Server Building Block Solutions, and We Keep IT Green are trademarks and/or registered trademarks of Super Micro Computer, Inc.

All other brands, names, and trademarks are the property of their respective owners.

** The press release content is from PR Newswire. Bastille Post is not involved in its creation. **

Supermicro Delivers Best-In-Class Cost and Density Per Server Instance with the New MicroCloud, a Multi-Node Solution for Lightweight Entry Class Workloads Powered by AMD EPYC™ 4005 Series Processors

The platform delivers end-to-end AI vision product prototyping — from concept to investor-ready demo — faster than any existing outsourcing model

SUNNYVALE, Calif., June 3, 2026 /PRNewswire/ -- Kickers.ai, an AI vision product Proof-of-Concept (POC) service, today officially launched at www.kickers.ai, offering global developers, startups, and enterprise innovation teams a fast, end-to-end path from product concept to fully functional AI vision prototype.

The launch addresses one of the most persistent bottlenecks in AI hardware development: most promising ideas never make it past the ideation phase — not because the vision is wrong, but because the path from concept to working prototype is too slow, too costly, and too fragmented for early-stage teams to cross alone.

Kickers.ai is built to close that gap.

End-to-End POC Delivery — Not Modules, Not Demos, but a Complete Product

Unlike fragmented vendors that deliver isolated components or algorithm demonstrations, Kickers.ai delivers at the whole-device level. Every engagement covers the full development stack:

• Optical system design
• Image tuning and performance validation
• Hardware R&D and structural engineering
• Software system integration
• Custom vision algorithm development

The final deliverable is a fully functional working prototype — ready for product demonstrations, investor pitches, roadshows, and early-stage market validation — in a standard delivery cycle of three weeks. Kickers.ai's integrated capabilities across optical design, vision hardware, and system-level engineering give early-stage teams the manufacturing backbone they cannot build on their own.

Proven in Production: From Wearable Innovation to Global Stage

The Kickers.ai model has already been validated in a demanding real-world deployment.

A next-generation AI wearable company sought to build what would become a category-defining product: an AI-powered device with active visual perception capability, requiring a fully integrated dual-camera vision system compact enough to fit within one of the most space-constrained wearable form factors in consumer electronics.

The engineering challenge was significant. The vision system needed to deliver a 2-megapixel sensor with an effective resolution of 1600 × 1200 and a pixel size of 1.75μm — all contained within a total module footprint of just 8 × 10.31 × 4.01 mm — while simultaneously meeting strict requirements for image quality, low power consumption, ISP integration, and mass-production viability.

Kickers.ai delivered a complete dual-camera vision module incorporating ISP and scanning functionality, supporting high-quality static imaging, low-power dynamic capture, and rapid interaction response across high-frequency use cases including payment and contextual AI services.

The project was completed on schedule and successfully showcased at a major international consumer electronics exhibition, marking a global first in its product category and drawing significant industry attention. The client was able to proceed directly from prototype to investor roadshow and pre-production planning — the exact outcome Kickers.ai is designed to enable.

"Most AI hardware innovation gets stuck at the same point: teams have the idea and even the algorithm, but they cannot build the actual device fast enough to raise capital or validate the market. We built Kickers.ai so that any team — startup, solo developer, or corporate innovation unit — can arrive at that first real product moment without burning months and six-figure budgets on traditional outsourcing. Three weeks to a working prototype is not a marketing number. It is what we deliver."

— [Hugo Hern], Kickers.ai

Who Kickers.ai Is Built For

Kickers.ai is built for teams at the earliest and most critical stage of AI hardware development:

• Global AI startup teams validating AI vision hardware opportunities before committing to full production
• Independent developers and creators building consumer-grade AI vision devices
• Corporate innovation and new product teams needing to move quickly from internal concept to demonstrable product
• Investment-backed projects requiring a working AI vision prototype to unlock the next funding round

Kickers.ai focuses specifically on consumer-grade AI vision products — devices designed for end users that require the ability to see, perceive, and understand the physical world — including smart wearables, spatial computing devices, robotics interfaces, and AI-native imaging hardware.

About Kickers.ai

Kickers.ai is an AI vision product Proof-of-Concept service headquartered in Sunnyvale, California. Kickers.ai serves global developers, entrepreneurs, and enterprise innovation teams, providing complete, end-to-end AI vision product prototyping — from concept to fully functional working device.

Website: www.kickers.ai 

Contact: kickers@kickers.ai

** This press release is distributed by PR Newswire through automated distribution system, for which the client assumes full responsibility. **

Kickers.ai Launches AI Vision POC Service to Help Global Innovators Build Real Products in Three Weeks