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#1
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Abit AA8 DuraMAX - Poor overclock
I purchased this mainboard soon after it was released and fitted it with
Corsair XMS2-5400 DDR2 RAM, P4 540 3.2E GHz CPU (D0 stepping), Abit RX600 XT-PCIE graphics card, and Creative Labs Sound Blaster Audigy2 ZS Platinum Pro PCI card. I have 4 x 250GB SATA hard disks in two RAID arrays (using the onboard RAID). I then added watercooling using Asetek blocks on the CPU, VGA, and NB. The best semi-stable overclock I can manage is about 240/3840 MHz. This is done with the following settings: VCo 1.6125V, DDR2V: 1.90V, NBV: 1.70V CPU temp at idle: 45C, CPU temp at load: 56C, Ambient temp: 25C On very hot days the CPU full load temp approaches 60C, whereafter the machine normally crashes. Whilst I can get into WinXP at 245 MHz it will not run stable under full load. Considering the speed of the DDR2 and that the temperature is still within acceptable limits, I'm disappointed with the poor overclock ability of my setup. I suspect that the overclocked PCIe bus might be at the root of this problem. Maybe the graphics card is sensitive to the overclocked frequency. Or maybe the SATA disks cannot handle it. Reports on the internet about the AA8 is a mixed bag regarding the overclock ability of this board. Some good, some bad. Am I missing something? PS: I have the latest MB BIOS (ver 1.8). |
#2
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James Bond wrote:
I suspect that the overclocked PCIe bus might be at the root of this problem. Maybe the graphics card is sensitive to the overclocked frequency. Or maybe the SATA disks cannot handle it. No I don't think PCI is causing your problems but even if PCI buses are guilty you can always lock them with some OCing software. I believe that your problems come from the SATA disks,they hate OCed FSBs and high voltages. |
#3
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Does your mobo have AGP/PCI lock? Should have if I'm not mistaken. Also DDR2
timings may be too tight. Try loosening them up to CAS 2.5.Lower the other ram timings as well such as tRas,tcrd,trp. I don't know your setings on these so I can't give you good idea. Raise the DDR and chipset voltages a bit too. I suspect that the overclocked PCIe bus might be at the root of this problem. Maybe the graphics card is sensitive to the overclocked frequency. Or maybe the SATA disks cannot handle it. |
#4
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James Bond wrote:
I purchased this mainboard soon after it was released and fitted it with Corsair XMS2-5400 DDR2 RAM, P4 540 3.2E GHz CPU (D0 stepping), Abit RX600 XT-PCIE graphics card, and Creative Labs Sound Blaster Audigy2 ZS Platinum Pro PCI card. I have 4 x 250GB SATA hard disks in two RAID arrays (using the onboard RAID). I then added watercooling using Asetek blocks on the CPU, VGA, and NB. The best semi-stable overclock I can manage is about 240/3840 MHz. This is done with the following settings: VCo 1.6125V, DDR2V: 1.90V, NBV: 1.70V CPU temp at idle: 45C, CPU temp at load: 56C, Ambient temp: 25C On very hot days the CPU full load temp approaches 60C, whereafter the machine normally crashes. [...] I suspect that the overclocked PCIe bus might be at the root of this problem. If it was the PCIe bus, I suspect you'd be seeing it long before 240MHz. Most PCI start to malfunction around 37-38MHz (corresponding to a FSB of ~225MHz), but your system is (almost ) stable at 40MHz. Perhaps PCIe devices are more tolerant to an overclocked bus, I don't really know. What you need to to is take the standard overclocking approach and isolate each part by itself. 1) Get rid of the SB card. 2) If you have a PCI graphics card that you're familiar with (in terms of what it will take), use that instead of the X600 3) Remove everything except video card, RAM, and CPU. 4) Find the limit of you RAM. Keep the FSB and memory speed in sync (or even run the memory above the FSB if possible) and ramp up the speed until memtest86 gives errors (or the system fails to boot ). 5) Find the limit of your CPU. Ideally, use a bootable Linux CD image along with Prime for stability testing (there's several out there, but don't know the names off the top of my head). Alternatively, use a hard disk you're familiar with, or one of your SATA drives if you don't have anything valuable on there yet. Do not use RAID. I usually let Prime run for about 5 minutes during the "first stage", increasing the FSB if it can last 5 minutes. When it starts to error, keep backing down until it can do a full 24 hour run. You may also want to drop the RAM speed a notch to be absolutely sure that there's no problem there. If you do this, you've largely isolated the two main components (CPU and RAM). Pick a speed that both should work fine at, and slowly add components. Run a test that focusses on that particular component (for example 3DMark to make sure your graphics card is happy). You should then find where your stability problems are, or alternatively end up with a system that is stable, and pretty much sitting at the maximum speed possible. If it's your CPU which is limiting you (which I suspect, given that you mention that temperature has an effect on stability) then run one of the throttle-monitoring programs. If your CPU is throttling at high loads, then you're just going to have to back down the voltage/frequency or cool it better. Another thing to try is to take the side off your case (if it's in a case) and blow air in using a desk fan. One "problem" with watercooling is that it changes the airflow across the motherboard from what has been designed. The airflow from the NB fan (for example) might also be cooling a couple MOSFETs. With the fan removed, these components heat up more under load and can cause stability problems. Creating a lot of airflow across the board will show if this is potentially an issue (though won't resolve it entirely, as it will also cool down things like the CPU, etc). Overclocking is a continual process. You don't just get your system and immediately go to the highest possible speed. You find the limits of each component, and continually explore different configurations, different cooling methods. It can take months of weekend fiddling until you get close to the maximum of your system. I was still getting improvements out my main system a year after I installed most of the bits, using pretty much the same cooling components as I started with. Also, every system is different. You need to find out the limits orf your particular system by isolating components and testing them. Overclocking everything at once it not the way to go, as you end up in the situation you are now, unsure of where or what the problem is. [...] -- Michael Brown www.emboss.co.nz : OOS/RSI software and more Add michael@ to emboss.co.nz ---+--- My inbox is always open |
#5
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Many thanks for your valuable response. This weekend I will take the
systematic approach as suggested by yourself. One thing at a time :-) Michael Brown wrote: || James Bond wrote: ||| I purchased this mainboard soon after it was released and fitted it ||| with Corsair XMS2-5400 DDR2 RAM, P4 540 3.2E GHz CPU (D0 stepping), ||| Abit RX600 XT-PCIE graphics card, and Creative Labs Sound Blaster ||| Audigy2 ZS Platinum Pro PCI card. I have 4 x 250GB SATA hard disks ||| in two RAID arrays (using the onboard RAID). ||| ||| I then added watercooling using Asetek blocks on the CPU, VGA, and ||| NB. ||| ||| The best semi-stable overclock I can manage is about 240/3840 MHz. ||| This is done with the following settings: ||| VCo 1.6125V, DDR2V: 1.90V, NBV: 1.70V ||| CPU temp at idle: 45C, CPU temp at load: 56C, Ambient temp: 25C ||| ||| On very hot days the CPU full load temp approaches 60C, whereafter ||| the machine normally crashes. || [...] ||| ||| I suspect that the overclocked PCIe bus might be at the root of this ||| problem. || || If it was the PCIe bus, I suspect you'd be seeing it long before || 240MHz. Most PCI start to malfunction around 37-38MHz (corresponding || to a FSB of ~225MHz), but your system is (almost ) stable at || 40MHz. Perhaps PCIe devices are more tolerant to an overclocked bus, || I don't really know. || || What you need to to is take the standard overclocking approach and || isolate each part by itself. || 1) Get rid of the SB card. || 2) If you have a PCI graphics card that you're familiar with (in || terms of what it will take), use that instead of the X600 || 3) Remove everything except video card, RAM, and CPU. || 4) Find the limit of you RAM. Keep the FSB and memory speed in sync || (or even run the memory above the FSB if possible) and ramp up the || speed until memtest86 gives errors (or the system fails to boot ). || 5) Find the limit of your CPU. Ideally, use a bootable Linux CD || image along with Prime for stability testing (there's several out || there, but don't know the names off the top of my head). || Alternatively, use a hard disk you're familiar with, or one of your || SATA drives if you don't have anything valuable on there yet. Do not || use RAID. I usually let Prime run for about 5 minutes during the || "first stage", increasing the FSB if it can last 5 minutes. When it || starts to error, keep backing down until it can do a full 24 hour || run. You may also want to drop the RAM speed a notch to be || absolutely sure that there's no problem there. || || If you do this, you've largely isolated the two main components (CPU || and RAM). Pick a speed that both should work fine at, and slowly add || components. Run a test that focusses on that particular component || (for example 3DMark to make sure your graphics card is happy). You || should then find where your stability problems are, or alternatively || end up with a system that is stable, and pretty much sitting at the || maximum speed possible. || || If it's your CPU which is limiting you (which I suspect, given that || you mention that temperature has an effect on stability) then run || one of the throttle-monitoring programs. If your CPU is throttling || at high loads, then you're just going to have to back down the || voltage/frequency or cool it better. || || Another thing to try is to take the side off your case (if it's in a || case) and blow air in using a desk fan. One "problem" with || watercooling is that it changes the airflow across the motherboard || from what has been designed. The airflow from the NB fan (for || example) might also be cooling a couple MOSFETs. With the fan || removed, these components heat up more under load and can cause || stability problems. Creating a lot of airflow across the board will || show if this is potentially an issue (though won't resolve it || entirely, as it will also cool down things like the CPU, etc). || || Overclocking is a continual process. You don't just get your system || and immediately go to the highest possible speed. You find the || limits of each component, and continually explore different || configurations, different cooling methods. It can take months of || weekend fiddling until you get close to the maximum of your system. || I was still getting improvements out my main system a year after I || installed most of the bits, using pretty much the same cooling || components as I started with. Also, every system is different. You || need to find out the limits orf your particular system by isolating || components and testing them. Overclocking everything at once it not || the way to go, as you end up in the situation you are now, unsure of || where or what the problem is. || || [...] || -- || Michael Brown || www.emboss.co.nz : OOS/RSI software and more || Add michael@ to emboss.co.nz ---+--- My inbox is always open |
#6
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Ok, I have taken a more "scientific" approach.
I determined the theoretical maximum speed of my CPU as a function of core voltage, and waterblock temperature, i.e. Speed (max at full load) = f(vcore, wbtemp). There is also a simple equation for determining the max power of the CPU as a function of speed and core voltage. Now using this formula I can understand why on a hot day (water block temp approx 33C) the CPU would get unstable. Also I can plot the ideal vcore and speed for the hottest day, which incidently is 239 MHz at vcore of 1,64V. This applies approx 138 Watt power to the CPU. Anything more will activate CPU thermal throttling. |
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