4 New Series Including G1™ Gaming, Overclocking Series, Black Edition and Ultra Durable™
With the onslaught of recent news regarding motherboards based on the all new Intel Z97 chipset, it is no surprise to see an official announcement from one of the most popular motherboard manufacturers in the world. Read more about GIGABYTE's new motherboard lineup after the break.
Taipei, Taiwan, May 7th, 2014 – GIGABYTE TECHNOLOGY Co. Ltd., a leading manufacturer of motherboards and graphics cards today launched their new 9 series motherboards based on the Intel® Z97/H97 chipsets with support for 4th and 5th generation Intel® Core™ processors.
“GIGABYTE is excited to launch 4 new series of motherboards for the Intel 9 series chipset, each offering a host of new and unique GIGABYTE features matched with GIGABYTE signature quality and durability,” commented Henry Kao, Vice President of GIGABYTE Motherboard Business Unit. “Our 9 series motherboards also offer a future proof platform to our customers by supporting the latest 4th generation Intel Core processors including the soon to launch refresh and unlocked CPUs, as well as future 5th generation Intel Core processors, ensuring they will be able to take advantage of current and upcoming Intel technologies.”
GIGABYTE G1™ Gaming Motherboards
GIGABYTE 9 series G1™ gaming motherboards were designed to deliver top-notch features that matter most to gamers. From incorporating industry-leading GIGABYTE AMP-UP Audio technologies that allow gamers and audiophiles to experience crisp, ultra sound effects while gaming and the richest possible sound experience while listening to their favorite music and movies, to ultra-fast onboard Gigabit LAN solutions from Killer™ and Intel, GIGABYTE G1™ motherboards were designed for gamers that aren’t satisfied with second best.
With a full range of top-to-bottom G1™ gaming motherboards including the compact, yet powerful Z97N-Gaming 5 Mini-ITX motherboard, GIGABYTE has a gaming motherboard suited for any type of gamer, no matter what type of game they play. Featuring the distinctive G1™ detailing and sexy new red and black styling, GIGABYTE G1™ motherboards are sure to make gamers stand out from the horde.
GIGABYTE SOC (Super OverClocking) Motherboards
Following the success of the GIGABYTE Z87X-OC motherboard, the #1 most overclocked motherboard on HWBOT.org in 2013, GIGABYTE has unleashed 2 new Z97 chipset-based overclocking motherboards, the Z97X-SOC FORCE and Z97X-SOC. With a host of unique OC features and bleeding-edge hardware design, GIGABYTE 9 series overclocking motherboards will allow even novice users to ‘Overclock Like a Pro’.
GIGABYTE Ultra Durable™ Black Edition Motherboards
As the undisputed leader of motherboard quality and durability, GIGABYTE has set out to show just how tough their motherboards are with the launch of their new Ultra Durable™ Black Edition motherboards. Each individual GIGABYTE Black Edition motherboard has undergone an extra 168 hours (7 days) of server-grade full system testing at our new state-of-the-art testing facility at the GIGABYTE Nanping, Taiwan factory to ensure every board delivers on its promise of Ultra Durability.
GIGABYTE Black Edition motherboard owners who register online and join the GIGABYTE Black Edition Members Club where they will receive exclusive member benefits including a 5 year warranty program for their motherboard.
GIGABYTE Ultra Durable™ Motherboards
GIGABYTE 9 series Ultra Durable™ motherboards bring together a unique blend of features and technologies that offer users the absolute ultimate platform for their next PC build. With features normally reserved for more expensive motherboards including the latest next generation transfer technologies such as SATA Express and M.2, exclusive high-end audio features advanced gaming networking, gold plated hardware connectors and killer good looks, GIGABYTE 9 series Ultra Durable™ motherboards are in a class of their own.
GIGABYTE Ultra Durable™ Motherboards
For more details regarding GIGABYTE 9 series motherboards, please go to: http://www.gigabyte.com/