MBB1002 AI-Ready eATX Motherboard Powered by AMD EPYC Embedded 8004 Series Processors
IBASE, Taipei, Taiwan, 07.04.2026 - IBASE Technology Inc. (TPEx: 8050), a leading manufacturer of embedded and edge computing solutions, announces the MBB1002, a powerful AI-ready eATX motherboard engineered to accelerate next-generation edge AI and data-intensive applications. Powered by AMD EPYC™ Embedded 8004 series processors, it provides exceptional multi-core performance and outstanding power efficiency, enabling faster AI inference, real-time analytics, and high-throughput computing at the edge.
Designed for scalability and performance, the MBB1002 supports up to 576GB DDR5-4800 ECC memory for reliable, high-speed data processing. Five PCIe Gen5 x16 slots offer unmatched flexibility for integrating GPUs and AI accelerators, allowing system integrators to scale performance based on evolving workload demands. With dual 10GbE LAN and high-speed NVMe storage support, the platform ensures ultra-fast data transfer and seamless system responsiveness for mission-critical deployments.
Built to simplify deployment while maximizing performance, the MBB1002 provides versatile I/O including SATA, PCIe Gen5 NVMe, and USB 3.2 with PDPC support. Its robust, industrial-grade architecture makes it an ideal solution for smart manufacturing, intelligent transportation, AIoT, and edge computing infrastructure, helping businesses accelerate time-to-market and unlock new AI-driven opportunities.
MBB1002 KEY FEATURES:
AMD EPYC™ Embedded 8004 Processor
Up to 64 cores, delivering high-performance computing for AI and data-intensive workloads
AI-Ready PCIe Gen5 Expansion
Five PCIe Gen5 x16 slots for GPUs and AI accelerators, enabling scalable AI deployment
High-Capacity DDR5 Memory
Supports up to 576GB DDR5 RDIMM with ECC for fast, reliable data processing
High-Speed Networking
Dual 10GbE LAN ports for high-bandwidth, low-latency data transmission
Industrial-Grade Platform Design
Robust, scalable architecture optimized for edge AI, automation, and mission-critical applications
