BIOS Features continued
The following screens detail additional BIOS settings in the Smart Tweak, Startup Guide, and Classic Mode interfaces.
BIOS Walkthrough – Smart Tweak HD Mode Interface continued
Home section, Your Name 1 page
Save & Exit section, Save & Exit page
Save & Exit section, Save & Exit page, Q-Flash popup
Save & Exit section, Save & Exit page, Load Custom Settings popup
Save & Exit section, Save & Exit page, Save Custom Settings popup
Save & Exit section, Save & Exit page, System Information popup
BIOS Walkthrough – Startup Guide Mode Interface
Startup Guide mode, Main page
Startup Guide mode, Integrated SATA Controller page
Startup Guide mode, Main page, System Information popup
Startup Guide mode, Main page, Q-Flash popup
Startup Guide mode, Main page, Save Profiles popup
Startup Guide mode, Main page, Load Profiles popup
BIOS Walkthrough – Classic Mode Interface
M.I.T. tab
System Information tab
BIOS Features tab
Peripherals tab
Peripherals tab, SATA Configuration page
Peripherals tab, Intel(R) Smart Connect Technology Configuration page
Power Management tab
Save & Exit tab
fix the pricing section
fix the pricing section
Fixed, thanks for pointing
Fixed, thanks for pointing this out…
What i want to see is a truly
What i want to see is a truly striped down board that is meant to do nothing but overclock. I mean why would you need audio on an OC board, just fill it with PCI-e slots and plx splitters, same thing goes for the onboard video. Get rid of everything that is not needed.
I agree on no need for
I agree on no need for integrated audio, but on these consumer sockets gpu is embeded into cpu so they cannot be removed by board manufcaturers. Also there really is no need of plx chips on oc oriented boards.
don’t see why they could not
don’t see why they could not ditch the ports on the back though, put something like more usb or something there. Also plx chips would be nice of you wanted to bench 4 way gpus not by amd.
Morry, I noticed in the
Morry, I noticed in the Conclusions you noted that the CMOS battery placement was a strength. If I am running Crossfire or SLI, the CMOS battery placement in my opinion sucks, especially if I have my video cards water cooled. What exactly is an ideal place for the CMOS battery and why?
Theoretically, you could run
Theoretically, you could run SLI or CrossFire with the board without impacting the battery. Ideally, the best place for the battery is by the DIMM slots in the the lower left corner of the board, both locations which remain accessible most of the time.
If you start talking about dual or tri-card mode, there are quite a few components that become hard to get to especially when using full sized cards…
Vs it’s predecessor’s battery
Vs it’s predecessor’s battery placement, it’s definitely an improvement.
WHY WHY WHY DO THEY CONTINUE
WHY WHY WHY DO THEY CONTINUE TO PUT PCI SLOTS?!
There are not enough PCI-E
There are not enough PCI-E slots from the chipset to allocate a 1x slot to each board position. Therefore the motherboard makers have a choice of using a PCI-E 1x to 2x PCI bridge which allows for using all seven slots in the ATX spec or leaving one of the slots blank on the board. I can see why they don’t want to leave blank slots, but the slot next to the primary GPU is almost always useless anyways. Some boards also leave the first slot blank and put the primary GPU in the second slot which makes more room for the CPU cooler. and GPU backplate.
Why, oh why, did Gigabyte
Why, oh why, did Gigabyte replace the perfectly good Intel NIC with this killer rubbish? When you ran the network tests, did you have the killer bloatware installed, or just the driver? Also, how exactly was the CPU utilization measured? Does your percentage include the CPU overhead from the simultaneous disk I/O too?
For the network testing, the
For the network testing, the Killer software was installed in addition to the driver. For measuring CPU utilization, Windows Performance Monitor was used with the average measured from that taken as the reported average…