• Built-in Intel® Celeron™ N3450 (up to 2.2 GHz) quad-core processor
  • GIGABYTE Ultra Durable™ Technology
  • Dual channel DDR3L SO-DIMM slot support
  • All Solid Capacitors with Humidity Protection New Glass Fabric PCB design
  • Dual GbE LAN with WOL/PXE support and high ESD Protection
  • 2 x RS232/422/485, 4 x RS232, Digital I/O 8-in/8-out
  • M.2 Socket 3 Key-M for PCIe NVMe or SATA Storage Support
  • Mini-PCIe Slot for Full/ Half-Height WIFI Card Support
  • LVDS Header for System Integrated Flat Panel Display Support
  • Rear Panel HDMI 1.4 & D-sub connectors for Multi-Display Connection
  • Amplified Speaker Header Able to Drive Up to 2W System Integrated Speaker
  • Thin Mini-ITX 170x170mm Form Factor with 12/19~24V DC-In Power Design
  • Compatible with GIGABYTE Thin mini ITX Chassis


  • * Datasheet Download
  • Intel® Celeron™ N3450 Processor
    The Intel® Celeron™ N3450 Quad-Core processor is the latest system on chip (SoC) from Intel, combining CPU, graphics and memory controller in one package. Based on the 14nm manufacturing process, the Intel® Celeron™ N3450 uses the smallest package of any desktop processor within a low thermal envelope of on 6 watts. The Intel® Celeron™ N3450 boasts excellent performance including DX12 on Intel® HD Graphics, plus a dedicated HEVC decoder for smooth HD video playback.
  • GIGABYTE Ultra Durable™
    GIGABYTE Ultra Durable™ debuts on GIGABYTE motherboards, with a range of features and component choices that provide record-breaking performance, cool and efficient operation and extended motherboard lifespan.
  • Humidity Protection
    Humidity can play havoc on a motherboard's circuitry.GIGABYTE's new Glass Fabric PCB design helps protect against electrical shorts due to humidity by reducing the gaps in spacing between PCB filaments.


  • Electrostatic Protection
    GIGABYTE motherboards feature High Resistance ICs which help protect the motherboard against electrostatic discharge.


  • Dual Gigabit LAN with WOL and PXE support


    The Dual Gigabit LAN with WOL and PXE support, deliver better network responsiveness and conveniently user experience in crowded LAN environments, to offer hassle free and high speed network connectivity.
  • 4K Ultra HD Support
    4K resolution is the next technological milestone in high-definition content delivery, utilizing approximately 4,000 pixels on the horizontal axis, more than four times today's standard HD pixel density. GIGABYTE motherboards provide native 4K support with integrated Intel® HD Graphics via HDMI.




  • HDMI™-The Next Generation Multimedia Interface
    HDMI™ is a High-Definition Multimedia Interface which provides up to 5Gb/s video transmitting bandwidth and 8-channel high quality audio all through a single cable. Able to transmit superior, uncompressed digital video and audio, HDMI™ ensures the crispest rendering of digital content up to 1080p without the quality losses associated with analog interfaces and their digital-to-analog conversion. In addition, HDMI™ is compatible with HDCP (High-bandwidth Digital Content Protection), allowing the playback of Blu-ray/HD DVD and other protected media content.
  • GIGABYTE @BIOS
    The new and updated GIGABYTE @BIOS app allows you to update your system's BIOS from within Windows using a simple and slick graphical user interface by automatically downloading the latest version from the GIGABYTE servers.
  • Compatible with GIGABYTE Thin mini ITX Chassis
    (Part Number: 24EC5-1TM10A-01R)
    (Size :204.6 x 205 x 45 mm)
    Compatible with GIGABYTE Thin mini ITX Chassis_IMBLAP3450

* Terminy „HDMI” oraz „ HDMI High-Definition Multimedia Interface ”, charakterystyczny kształt produktów HDMI (HDMI trade dress) oraz Logo HDMI stanowią znaki towarowe lub zastrzeżone znaki towarowe spółki HDMI Licensing Administrator, Inc.
* Zamieszczony materiał został udostępniony jedynie w celach informacyjnych. GIGABYTE zastrzega sobie prawo do wprowadzania zmian w specyfikacji produktu i udostępnionych informacji o produkcie bez wcześniejszego powiadomienia.
* Przedstawiane dane są oparte na maksymalnych teoretycznych wydajnościach przedstawionym przez producentów chipsetów lub organizacji określających zakres tych specyfikacji. Rzeczywista wydajność może się różnić w zależności od konfiguracji systemu.
* Wszystkie znaki towarowe są własnością ich właścicieli.
* Z uwagi na budowę systemu, zakres pamięci może się różnić.