GIGABYTE Z68 series motherboards provide all the advanced overclocking features users have come to know and love about the GIGABYTE P67 series motherboards including increasing processor core ratios, increasing DDR3 memory ratios and increasing power and current limits. In addition, GIGABYTE Z68 motherboards also allow users to increase the graphics core clock speed, for even greater graphics performance.
GIGABYTE Touch BIOS™ (Patent Pending)
Navigating through the BIOS to change system settings can be a daunting task for users not familiar with control "F"functions and mouse-less navigation. While some EFI BIOS try to address this with a mouse friendly environment, many implementations still lack a certain ease-of-use necessary for most people. With GIGABYTE Touch BIOS™, GIGABYTE engineers have completely re-imagined how users can interact with their BIOS, allowing for a more intuitive user experience. In fact, with a touch screen monitor, GIGABYTE Touch BIOS™ is as easy to use as most apps on your iPhone.
Supports Intel® Smart Response Technology
GIGABYTE Z68 series motherboards are equipped with the much anticipated Intel® Smart Response Technology, allowing users to experience system performance similar to SSD only systems. Intel® Smart Response technology works by using intelligent block-based caching of frequently used applications to improve system performance and responsiveness. In fact, GIGABYTE Z68 motherboards with Intel® Smart Response Technology are able to outperform hybrid drive systems by more than 2X (PC Mark Vantage HDD test) and HDD-only systems by as much as 4X (PC Mark Vantage HDD test) and deliver a 60% performance improvement over HDD-only systems in PC Mark Vantage Suite.
GIGABYTE EZ Smart Response
The GIGABYTE EZ Smart Response utility is a simple application that allows users to quickly and easily configure their system for Intel® Smart Response Technology. In the past, enabling Intel® Smart Response meant users needed to enter the BIOS in order to configure their system for RAID mode, which then required a complete reinstall of the operating system. Once that processes was complete, users then needed to install the Intel® Rapid Storage Utility as well as configure Intel's Smart Response Technology. GIGABYTE EZ Smart Response does all of this automatically, without users having to perform a complicated install process. This allows them to quickly and effortlessly enjoy a significant boost in system performance
Maximum Power Delivery
Like the pistons and cylinders of a car engine, the design of the motherboard Voltage Regulator Module (VRM), component quality and number of power phases greatly affects motherboard performance. GIGABYTE engineers were first to realize not only the importance of using the best quality components for this critical area, but also that with more power phases, there can be more power available to your CPU. GIGABYTE 6 series motherboards with their new redesigned VRM, promise to deliver first class system performance and power stability. With only the best quality components and unique design, incorporating Dual CPU Power and Power Phase Boost with Multi-gear Switching, your CPU can enjoy better power than what was available from previous motherboards.
Industry's Leading TRUE 24 Phase Power Design
GIGABYTE's cutting edge 24 phase power VRM design utilizes the highest caliber components to provide unadulterated, smooth power to the CPU. The innovative 24 phase power VRM has been designed and engineered to deliver fast transient response times through quick and seamless power delivery during extensive CPU loading variations. In addition, heat from the VRM is effectively reduced by spreading the load between the 24 power phases, resulting in a cooler, more stable platform.
Dual CPU Power Technology
Imagine a workstation class redundant (duplicated) power design on a desktop motherboard. GIGABYTE's proprietary Dual CPU Power Technology allows CPU VRM power phases to split evenly into 2 sets of power engines that operate in tandem. This allows 1 set of power phases to rest while the other is active, as opposed to a traditional power design, where all the power phases are always active. As such GIGABYTE Dual CPU Power effectively halves the amount of work done by each set of power phases to significantly increase motherboard durability and reliability.
Ultra Durable 3
The GIGABYTE Ultra Durable™ 3 design features twice the copper for both the power and ground layers of the PCB, dramatically lowering system temperature by efficiently spreading heat from critical areas of the motherboard (such as the CPU power zone) throughout the entire PCB. GIGABYTE's Ultra Durable™ 3 also lowers the PCB impedance by 50%, which helps to reduce electrical waste and further lowers component temperatures. A 2x Copper layer design also provides improved signal quality and lower EMI (Electromagnetic Interference), providing better system stability and allowing for greater margins for overclocking
On/Off Charge Technology
GIGABYTE On/Off Charge technology allows you to charge your iPhone, iPad and iPod Touch regardless of whether your PC is on, in standby mode or even off. A derivative of GIGABYTE's highly acclaimed 3x USB Power feature, On/Off Charge enables devices to draw more current from GIGABYTE motherboard USB ports than standard USB ports allow, so that charging from your PC can be as fast as with a charger
SuperSpeed USB 3.0
GIGABYTE Ultra Durable™ 3 motherboards boast SuperSpeed USB 3.0 technology made possible through an additional onboard host controller. With superfast transfer rates of up to 5 Gbps, users are able to experience a theoretical 10x improvement over USB 2.0. Additionally, backwards compatibility with USB 2.0 assures users of long term use of their legacy USB 2.0 devices.
SATA 6 Gbps
GIGABYTE motherboards are High-Speed SATA Revision 3.0 compatible, delivering superfast 6Gbps link speeds for twice the data transfer rates of SATA Revision 2.0 (3 Gbps). When used in RAID 0 (Stripe) mode, they offer even faster data transfer rates of up to a theoretical 4x the speed of current SATA interfaces.