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My Sandy Bridge setup has been one of the most successful I have seen on the forum and I spent some time this weekend trying to work out why and where my limitations are.
I currently have my setup able to achieve the following:
1. 5.4GHz - Stable enough to benchmark, but not run prime95
2. 5.0Ghz - Prime95 stable (1.4v)
3. 4.8GHz - Fully stable at 1.35v - so probable 24/7 setup
I am using the Asus P8P67 Pro motherboard and a 2600K processor.
Firstly, my CPU hits a wall at 4.8GHz without the 1053 bios and the CPU PLL Overvoltage set to enabled. Then overclocking to 5.4GHz relies on Vcore and very minor tweaks to PLL voltage. Nothing else in the bios including LLC seems to make any real difference.
What is really interesting are my findings regarding RAM.
I have two sets of RAM, but have only achieved 5GHz + on the CPU using one of those sets and more interestingly that set at a single ratio and timings.
When my OCZ 1600 6-8-6-24 1T @ 1.425v ram is used with the bios manually set to 1600MHz, Vdimm set to 1.425 and timings set as stated overclocking to 5.4GHz seems very easy. I cant get anywhere at 100x55, 100x54 is the max.
My ram passes 3 passes of memtest at 1866MHz 6-8-6-24 1T at 1.575v but at the 1866ram ratio stability when overclocking the CPU above 5GHz disappears.
What is more interesting is that I get instability at any overclock above 4.5Ghz if I alter almost any RAM settings. Most notably even changing the ratio down to 1333, 1066 or even 800 with all the other settings fixed as above I get massive instability, often resulting in the board even booting.
Using my other set of RAM, Patriot 2400 9-11-9-27 1T @1.65v I get no real stability when overclocking. I also suffer the cold boot issue discussed on the board and also suffered the RED Ram light when first changing the ram resulting in needing to start with one stick, set the Bios manually and then add the second stick.
So my conclusion is that the CPU stability, at least for me and using the Asus P8P67 motherboard, is very dependent upon the RAM ratio and settings. This maybe because the Motherboard is setting other RAM timings behind the scenes badly or it maybe that the CPU memory controller is very fussy.
Anyway, for anyone struggling to overclock or get stability with their Sandy Bridge I recommend the following...
Hope this helps.
UPDATE: 18 JAN 2011
I have been looking into my findings some more and have now discovered that I can get stability with my OCZ ram at 1866MHz
The Asus board has a massive amount of memory settings in addition to the standard CAS etc. I have made a note of these settings at 1600MHz and applied them manually at 1866MHz.
When I did this first time, I manually set them all... I have now discovered that there are a few that make the system very unstable.
With the Ram settings manually set I now have as much stability as I did at 1600MHz
So in line with my findings yesterday, I can confirm that it is the Ram settings that the Asus board chooses that makes things less stable.
My next step is to explore these settings further and see if I can find which aid or reduce stability.
I currently have my setup able to achieve the following:
1. 5.4GHz - Stable enough to benchmark, but not run prime95
2. 5.0Ghz - Prime95 stable (1.4v)
3. 4.8GHz - Fully stable at 1.35v - so probable 24/7 setup
I am using the Asus P8P67 Pro motherboard and a 2600K processor.
Firstly, my CPU hits a wall at 4.8GHz without the 1053 bios and the CPU PLL Overvoltage set to enabled. Then overclocking to 5.4GHz relies on Vcore and very minor tweaks to PLL voltage. Nothing else in the bios including LLC seems to make any real difference.
What is really interesting are my findings regarding RAM.
I have two sets of RAM, but have only achieved 5GHz + on the CPU using one of those sets and more interestingly that set at a single ratio and timings.
When my OCZ 1600 6-8-6-24 1T @ 1.425v ram is used with the bios manually set to 1600MHz, Vdimm set to 1.425 and timings set as stated overclocking to 5.4GHz seems very easy. I cant get anywhere at 100x55, 100x54 is the max.
My ram passes 3 passes of memtest at 1866MHz 6-8-6-24 1T at 1.575v but at the 1866ram ratio stability when overclocking the CPU above 5GHz disappears.
What is more interesting is that I get instability at any overclock above 4.5Ghz if I alter almost any RAM settings. Most notably even changing the ratio down to 1333, 1066 or even 800 with all the other settings fixed as above I get massive instability, often resulting in the board even booting.
Using my other set of RAM, Patriot 2400 9-11-9-27 1T @1.65v I get no real stability when overclocking. I also suffer the cold boot issue discussed on the board and also suffered the RED Ram light when first changing the ram resulting in needing to start with one stick, set the Bios manually and then add the second stick.
So my conclusion is that the CPU stability, at least for me and using the Asus P8P67 motherboard, is very dependent upon the RAM ratio and settings. This maybe because the Motherboard is setting other RAM timings behind the scenes badly or it maybe that the CPU memory controller is very fussy.
Anyway, for anyone struggling to overclock or get stability with their Sandy Bridge I recommend the following...
- Enable CPU PLL Overclocking in the Bios.
- Try your ram at different Speeds - You may need to find the sweet spot for the relationship between your CPU and Ram.
Hope this helps.
UPDATE: 18 JAN 2011
I have been looking into my findings some more and have now discovered that I can get stability with my OCZ ram at 1866MHz
The Asus board has a massive amount of memory settings in addition to the standard CAS etc. I have made a note of these settings at 1600MHz and applied them manually at 1866MHz.
When I did this first time, I manually set them all... I have now discovered that there are a few that make the system very unstable.
With the Ram settings manually set I now have as much stability as I did at 1600MHz
So in line with my findings yesterday, I can confirm that it is the Ram settings that the Asus board chooses that makes things less stable.
My next step is to explore these settings further and see if I can find which aid or reduce stability.
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