A micro x86 compute module fits unique solutions.


Small but Powerful

  • 4

    Core-Max 3.4GHz
  • 8GB

    LPDDR5 4800MHz with In-band ECC
  • 64GB

    eMMC 5.1 Storage
  • Benchmark

  • LattePanda Mu (Intel® Processor N100)



  • Raspberry Pi 5



  • Intel® Celeron® N5105



  • Intel® Atom™ x5-Z8350



  • 0 500 1000 1500 2000 2500 3000 3500
  • Multi-core

  • From Geekbench 6

    Silent or Wild

    6W to 35W TDP, Passive to Active Cooling

    Card-Sized, Fits Somewhere


    Flexible Expansion

  • 9 PCIe 3.0 lanes
  • Up to 0 SATA 3.0
  • Up to 0 USB 3.2 ports
  • PCle 3.0 Lanes #12
  • PCle 3.0 Lanes #11
  • PCle 3.0 Lanes #10
  • PCle 3.0 Lanes #9
  • PCle 3.0 Lanes #7
  • PCle 3.0 Lanes #4
  • PCle 3.0 Lanes #3
  • PCle 3.0 Lanes #2
  • PCle 3.0 Lanes #1
  • 3 HDMI or DisplayPort

  • 8

    USB 2.0 ports
  • 2

  • 4

  • Expandable to


  • Unlimited Solutions

    • NAS Carrier

      Freely allocate the interfaces and form factors you need in the carrier board design. Design an ultra-energy-saving NAS, or a high-performance NAS equipped with a 10GbE network. The IBECC-supported LattePanda Mu can run stably for a long time like a real server.

    • Router Carrier

      With the excellent processing and encryption/decryption performance of the N100 processor, you can expand multiple network cards to achieve the network functions you need. You can also further add functions such as switches, PoE, etc. on the carrier board, to build it into a highly integrated and versatile network infrastructure.

    • Graphic Carrier

      The flexible carrier board design allows the LattePanda Mu to be paired with PCIe, MXM, or even SXM and OAM graphics cards. Whether it's running games, image processing, or local ChatGPT, it's flexible enough and still keeps the entire system at an elegant size.

    • Cluster Carrier

      Design a carrier board to connect multiple LattePanda Mu over a high-performance network, and build your own Kubernetes clusters, Proxmox VE virtualization clusters, or Ceph distributed storage. You can locally experiment with various latest network technologies and explore the cutting edge.

    NAS CarrierRouter CarrierGraphic CarrierCluster Carrier

    Making Carrier Simpler and Easier

    Empowering your innovations by simplifying complexity. With all carrier board files and libraries open sourced, we provide the perfect reference for your custom designs.

    Multi-OS Compatible

    Empower your creations with versatile OS compatibility.




    Custom Design Services

    Personalize effortlessly with our design services.

    Learn More

    LattePanda Mu is an x86 compute module with an Intel N100 CPU, compatible with Windows and Linux. Its CPU performance doubles the Raspberry Pi 5, while its GPU capabilities are 10 to 20 times higher, ensuring smooth operation of demanding computational models.

    LattePanda Mu's innovative design allows tailoring the thermal design power (TDP) from 6 watts to 35 watts, making it versatile for various applications and performance requirements. At its core, LattePanda Mu is a computing module that allows users to design and integrate custom carrier boards, enabling a rich assortment of interfaces, including 3 HDMI/DisplayPort ports, 8 USB 2.0 ports, up to 4 USB 3.2 ports, and 9 PCIe 3.0 lanes.

    LattePanda Mu's most significant attribute is its customizability. Users can craft carrier boards aligning with their functional requirements, such as a dual-Ethernet port board for a software router, or a SATA interface for a Network-Attached Storage (NAS) solution. With up to 9 PCIe 3.0 lanes, the Mu can be outfitted with a dedicated graphics card for more potent applications or as the foundation for a computing cluster.

    Comprehensive documentation will detail the functions and purposes of each pin, empowering developers to design their custom carrier boards. The most intricate components are integrated into the core board, leaving simpler aspects for users to design. Customization services are available for specialized requirements, allowing users to unleash the Mu's full potential and create something extraordinary.