Redefining the Desktop PC
Challenging the essence of how we define a desktop PC, GIGABYTE engineers have developed an ultra compact PC with a stylish glass surface chassis design. Ideal for a broad range of computing applications at home or in the office, the BRIX expounds sheer simplicity and convenience. With a broad choice of processors covering the entire performance spectrum, the BRIX sets a new standard for desktop miniaturization that makes it perfect as a discreet HTPC/multimedia hub, an ultra-low power PC for the family, an office PC or as a digital signage unit.
With support for HDMI and DisplayPort, the BRIX can power two displays simultaneously, making a perfect choice as a high productivity PC in professional and home environments, or in any number of industrial and commercial multi-display applications.
Flexible Compact PC Kit
The BRIX is sold as a DIY PC kit, shipping with a NGFF M.2 Wi-Fi module pre-installed, plus a power adapter and cable conforming to local standards. Requiring only system memory and mSATA SSD, the BRIX gives users the flexibility to independently choose integrated storage and system memory size, without the trouble of sourcing components that are not widely available on the retail market.
Bundled with a VESA bracket, the BRIX can easily be mounted behind a monitor or HDTV making it discreetly hidden from view. This makes it simple and effective way to turn any VESA-compliant display or TV into a full-featured PC or digital signage unit.
Support Near Field Communication technology
The Core™ i7 version of the GIGABYTE BRIX and BRIX s are equipped with NFC technology that can be paired with NFC devices. Up to 8 profiles allow users to easily set any number of commands to be executed. NFC technology works in tandem with your enabled devices to secure, simplify and expedite everyday tasks such as accounts login and payment authorization. BRIX and BRIX s take the full advantage of this innovative technology to unlock and create incredible life experiences.
(NFC module inclusion may vary based on local distribution.)