Gigabyte GA-MA770T-UD3P Computer Hardware User Manual


 
- 37 - BIOS Setup
2-3 MB Intelligent Tweaker(M.I.T.)
Whether the system will work stably with the overclock/overvoltage settings you made is
dependent on your overall system configurations. Incorrectly doing overclock/overvoltage
may result in damage to CPU, chipset, or memory and reduce the useful life of these
components. This page is for advanced users only and we recommend you not to alter the
default settings to prevent system instability or other unexpected results. (Inadequately alter
ing the settings may result in system's failure to boot. If this occurs, clear the CMOS values
and reset the board to default values.)
When the System Voltage Optimized item blinks in red, it is recommended that you set
the System Voltage Control item to Auto to optimize the system voltage settings.
CMOS Setup Utility-Copyright (C) 1984-2009 Award Software
MB Intelligent Tweaker(M.I.T.)
Advanced Clock Calibratioin [Press Enter]
CPU Clock Ratio [Auto] 2800 Mhz
CPU NorthBridge Freq. [Auto] 2000 Mhz
CPU Host Clock Control [Auto]
x CPU Frequency(MHz) 200
PCIE Clock (MHz) [Auto]
HT Link Frequency [Auto]
Set Memory Clock [Auto]
x Memory Clock x5.33 1066Mhz
DRAM Configuration [Press Enter]
********
System Voltage Optimized
********
System Voltage Control [Auto]
x CPU NB VID Control Auto
x CPU Voltage Control Auto
Normal CPU Vcore 1.2500V
x DRAM Voltage control Auto
x DDR VTT Voltage Control Auto
x NB Voltage Control Auto
x SB/HT Voltage Control Auto
x NB PCIE Voltage Control Auto
: Move Enter: Select +/-/PU/PD: Value F10: Save ESC: Exit F1: General Help
F5: Previous Values F6: Fail-Safe Defaults F7: Optimized Defaults
Item Help
Menu Level
Advanced Clock Calibratioin
CMOS Setup Utility-Copyright (C) 1984-2009 Award Software
Advanced Clock Calibratioin
: Move Enter: Select +/-/PU/PD: Value F10: Save ESC: Exit F1: General Help
F5: Previous Values F6: Fail-Safe Defaults F7: Optimized Defaults
Item Help
Menu Level
Advanced Clock Calibratioin [Disabled]
x Value (All Cores) -2%
x Value (Core 0) -2%
x Value (Core 1) -2%
x Value (Core 2) -2%
x Value (Core 3) -2%