GIGABYTE Super4(TM) motherboards are the latest range of next-generation desktop motherboards based on the Intel(R) H61 Express Chipset with support for 2nd generation 'Sandy Bridge' Intel(R) Core(TM) CPUs. Not only delivering Intel's industry-leading performance and advanced integrated graphics capabilities, GIGABYTE Super4(TM) motherboards are equipped with a comprehensive range of unique features that offer mainstream PC users the most compelling platform on the market today.
All GIGABYTE Super4(TM) motherboards boast specific features that guard against system malfunction and ensure extended system longevity, including GIGABYTE DualBIOS(TM) to ensure that you never experience system failure due to BIOS corruption. Additionally, each USB port has its own dedicated power fuse that prevents unwanted USB port failure, helping to safe guard your important data during transfer. All Super4(TM) motherboards also use Japanese made capacitors that guarantee system longevity with a minimum 50,000 hrs lifespan.
Hybrid EFI Technology combines the benefits of GIGABYTE's mature BIOS platform including stability and compatibility with 3rd party products with 3TB+ HDD support from EFI technology, allowing GIGABYTE to offer the best of both worlds through a quick and easy BIOS update using GIGABYTE's @BIOS utility that is freely available from the GIGABYTE website.
GIGABYTE DualBIOS(TM) is a patented technology that automatically recovers BIOS data when the main BIOS has crashed or failed. Featuring 2 physical BIOS ROMs integrated onboard, GIGABYTE DualBIOS(TM) allows quick and seamless recovery from BIOS damage or failure due to viruses or improper BIOS updating. In addition, GIGABYTE DualBIOS(TM) now supports 3TB+ (terabyte) hard drive booting without the need for partitioning, and enables more data storage on a single hard drive.
GIGABYTE Ultra Durable motherboards are equipped with solid capacitors developed by leading Japanese manufacturers. With an average lifespan of 50,000 hours, these solid capacitors provide the stability, reliability and longevity essential to meet the power needs of high-end processors and other components running today's most demanding applications and games.