GIGABYTE X'MAS & New Year Contest

  • official
  • online


The GIGABYTE ‘Xmas and New Year Contest’ is open to all Overclockers using any AMD APU on any GIGABYTE socket FM1 A75 or A55 series motherboard, using any cooling solution. The contest winner will take home a GIGABYTE GA-990FXA-UD5 motherboard, with second and third place taking a GA-990FXA-UD3. Good luck everyone!

Participate

  • GIGABYTE X'MAS & New Year Contest is closed since 31 January 2012.
  • This competition is between Members.

This competition is closed. You can no longer join.

Stages

Chat

Participants

This competition was open to everyone.

Prizes

  • Winner: GIGABYTE GA-990FXA-UD5

    The 990FXA-UD5 motherboard is designed to offer a stable, high-speed platform for delivering amazingly fast data transfer via the GIGABYTE 333 onboard acceleration technologies. Featuring the USB3.0 controller, AMD 900 series motherboards allow users to take advantage of super fast USB transfer rates of up to 5Gbps, delivering 10x faster data transfer compared to USB 2.0. Utilizing the industry's first Serial ATA Revision 3.0 solution via AMD SB950 chipset, GIGABYTE AMD 900 series motherboards offer native 6 ports of next generation high speed data storage devices support with data transfer speeds of up to 6 Gbps with RAID 0, 1, 5, 10. The AMD 900 series motherboards introduce a unique hardware design with lower resistance fuses for ensuring lower voltage drops and providing more stable and plentiful power delivery. All USB ports also benefit from a 3x power boost for better power delivery to power hungry USB devices.

    More information: http://www.gigabyte.com/products/product-page.aspx?pid=3891

  • Runner-up: GA-990FXA-UD3

    The 990FXA-UD3 motherboard is designed to offer a stable, high-speed platform for delivering amazingly fast data transfer via the GIGABYTE 333 onboard acceleration technologies. Featuring the USB3.0 controller, AMD 900 series motherboards allow users to take advantage of super fast USB transfer rates of up to 5Gbps, delivering 10x faster data transfer compared to USB 2.0. Utilizing the industry's first Serial ATA Revision 3.0 solution via AMD SB950 chipset, GIGABYTE AMD 900 series motherboards offer native 6 ports of next generation high speed data storage devices support with data transfer speeds of up to 6 Gbps with RAID 0, 1, 5, 10. The AMD 900 series motherboards introduce a unique hardware design with lower resistance fuses for ensuring lower voltage drops and providing more stable and plentiful power delivery. All USB ports also benefit from a 3x power boost for better power delivery to power hungry USB devices.

    More information: http://www.gigabyte.com/products/product-page.aspx?pid=3894

  • 2nd Runner-up: GA-990FXA-UD3

    The 990FXA-UD3 motherboard is designed to offer a stable, high-speed platform for delivering amazingly fast data transfer via the GIGABYTE 333 onboard acceleration technologies. Featuring the USB3.0 controller, AMD 900 series motherboards allow users to take advantage of super fast USB transfer rates of up to 5Gbps, delivering 10x faster data transfer compared to USB 2.0. Utilizing the industry's first Serial ATA Revision 3.0 solution via AMD SB950 chipset, GIGABYTE AMD 900 series motherboards offer native 6 ports of next generation high speed data storage devices support with data transfer speeds of up to 6 Gbps with RAID 0, 1, 5, 10. The AMD 900 series motherboards introduce a unique hardware design with lower resistance fuses for ensuring lower voltage drops and providing more stable and plentiful power delivery. All USB ports also benefit from a 3x power boost for better power delivery to power hungry USB devices.

    More information: http://www.gigabyte.com/products/product-page.aspx?pid=3894

HWBOT General Rules and Guidelines

Here at HWBOT we try our best to deliver a fair and enjoyable playing field for all those who participate in the rankings and competition. To be able to provide this kind of service we have tried to design some submission and general rules to help remove any doubts about whether something is allowed or not. Based on continued experience these rules will be updated, expanded and completed as time goes by. Please check back for any updates.