ASUS Unveils the GeForce GTX 680 DirectCU II TOP
ASUS, Today announces the GeForce GTX 680 DirectCU II Top graphics card featuring the manufacturer's cutting edge DirectCU heatsink design and out of box factory overclocked specs. Based on the 28nm Kepler GPU, ASUS's DirectCU II Top offers superior overclocking through its custom made PCB which makes it a worth choice for enthusiasts.
The ASUS GeForce GTX 680 DirectCU II TOP graphics card delivers a true flagship product for dedicated PC gamers and performance enthusiasts. The TOP-selected 28 nm NVIDIA GeForce GTX 680 GPU has been overclocked by ASUS to 1201 MHz to boost frame rates in games, offering users 143 MHz over reference. Its ASUS-designed DirectCU II thermal design runs 20% cooler than stock, while the twin 100 mm fans keep noise at bay with 14 dB quieter operation.
ASUS has added 10-phase DIGI+ VRM digitally regulated power delivery with 30% noise reduction, working in tandem with durable Super Alloy Power components that last 2.5 longer than reference. Users can tap the greater overclocking and overvolting capabilities of the card through both the hardware-level VGA Hotwire and the software-level GPU Tweak utility. Also released is the ASUS GeForce GTX 680 DirectCU II OC edition, with a 1019 MHz core capable of a 1084 MHz boost clock. This card uses the same DirectCU II cooler and PCB as the TOP version.
TOP-selected 1201 MHz core powers smoother gaming
ASUS TOP graphics cards utilize the best-performing GPUs available, chosen via a rigorous set of trials. The GeForce GTX 680 DirectCU II TOP arrives factory-overclocked to 1201 MHz on the core, boosting frame rates for smoother and more fluid gaming in even the most demanding of situations. Due to passing extensive heat tolerance tests, TOP GPUs can handle extra overclocking strain, and are matched by ASUS engineers with an upgraded PCB that can also withstand more heat and stress than reference parts.
DirectCU II creates the coolest and quietest GeForce GTX 680
Especially customized and fitted to match the power of factory-overclocked GeForce GTX 680 GPUs, the exclusive ASUS DirectCU II thermal design lowers temperatures to ensure faster, quieter, more stable, and longer lasting performance. Using five all-copper heatpipes and a 20% bigger dissipation area than reference, DirectCU II guarantees more expedient heat removal. It also features twin 100 mm sound-dampened fans for increased airflow, resulting in 20% cooler and 14 dB quieter operation on average compared to reference GeForce GTX 680s. This allows gamers to enjoy the utmost performance with minimized noise interference, a highly coveted and appealing proposition.
DIGI+ VRM with 10-phase Super Alloy Power
The GeForce GTX 680 DirectCU II plays host to two exclusive ASUS power delivery technologies. DIGI+ VRM, based on a design used on bestselling ASUS motherboards since 2010, offers digital voltage regulators for a wider modulation range and therefore more flexible overclocking. The version of DIGI+ VRM used here applies 10-phase delivery and reduces power noise by as much as 30% compared to reference. Reduced power noise translates into more stable power supply and thus more consistent and reliable card performance. Combined with extra-durable and anti-corrosive Super Alloy Power components (solid state capacitors, chokes, and MOSFETs), DIGI+ VRM contributes to a card that runs 15% more efficient than reference models while maintaining 2.5 times the product lifespan.
Overclocking duo: software and hardware tuning enabled
The GeForce GTX 680 DirectCU II TOP ships with extensive software overclocking by way of GPU Tweak, the exclusive ASUS card tuning suite. Using a highly intuitive interface, GPU Tweak helps users adjust clocks (including new boost clock settings), power consumption targets, voltages, and fan speeds, with multiple profiles available for different applications and needs. This is complemented by the addition of VGA Hotwire, a feature previously offered by ASUS ROG motherboards. For DIY-minded users, VGA Hotwire presents the benefit of more precise and complete hardware-level overvolting. Users can solder wires directly onto voltage regulators for more accurate Vcore, Vmem, and PLL readings and adjustments, opening up even more of the powerful card’s potential.