Operating at 3.8 ghz stable using Core 2 Duo E7500.
Operating at 3.8 ghz stable using Core 2 Duo E7500.
i've been working to achieve (med 3.5 - high 3.6/7 ghz) from (320 -330/333) using a multiplier of x 11.0, but i'm struggling to locate the vcore and other parameters. i failed before. i then tried 11 x 319 and got a very low 3.509ghz with default settings on my e7500 and g41m- vs3 r2.0, and the adia64 stress test ran smoothly for over 41 minutes. anyone here who has this motherboard can help me find the vcore and other settings needed for stable overclocking?
You can manage voltage using Throttlestop software. Increase the Volts, then adjust a BSEL pinmod form 1066fsb to 1333. This should achieve a base clock of 3.66Ghz. (11x333)
With pinmod, you're manipulating the MB pins rather than the CPU. Ensure the external component has the correct conductor.
It's not an excellent platform for overclocking, yet the VCore refers to VTT voltage:
http://www.overclock.net/t/1528251/help-...to-3-2-ghz
@GhislainG that voltage really doesn't help me...
after trying everything, I can't bother to check anymore. I'm going to stick to the stock settings with a 3.500(19%) overclock because it's the most stable after more than 8 hours.
You can manage voltage using Throttlestop software. Increase the Volts, then adjust a BSEL pinmod form 1066fsb to 1333. This should achieve a base clock of 3.66Ghz. (11x333)
With pinmod, you're influencing the MB pins rather than the CPU. Ensure the external side has the conductor.
You may need to disassemble and purchase an E7600. (11.5x266/333)
The G series LGA775 MBs are known for their poor O/C compatibility. They support a 95W CPU limit, but starting with a 65W C2D gives you some flexibility.