Are P4s more stable at high temperatures?
People have stated that P4s are "hyper-stable" at temperatures that would cause an Athlon to crash. I've always known that this isn't true, and a lot of you also know that this isn't the case.
But, I set out to prove it nonetheless. So, I grabbed my 1700+ Palomino, and dropped it in the KX7 system that was sitting on my desk. I hooked up the digidoc5, with a thermistor touching the side of the CPU core so I could get the actual CPU temperature. The only cooling was a 2500+ HSF, with various fans. I put MBM5 and F@H on it, fired them up, unplugged the cpu fan, sat back, and watched the thing heat up.
Would you care to guess how hot the 1700+ got (it NEVER froze due to heat- it DID freeze with -forcesse, but it was doing that at 38*C, too. That's just an issue with some of the Palomino cores).
75*C?
No.
80*C?
Nope.
85*C?
*yawn*
87*C
*zzzzz*
Well, I'm actually not entirely sure what I hit- the DigiDoc 5 won't read past 90*C (trust me, I tried- with a Butane torch and a spare thermistor
), but it was AT LEAST 90*C. And judging by the amount of time it took to come down to a temperature of 90*C or below so the DigiDoc5 could read it, I would guess that it actually hit something close to 100*C. While running F@H. Without crashing.
It spent a grand total of around 20 minutes at or above 70*C over the course of the test, without crashing. Ever. It then spent all night between 68*C and 53*C, with an average of 59*C (according to MBM5- remember that the actual temperature is 5-10*C higher than this).
So much for "the P4s are more stable at high temperatures", eh?
Some pics/screenshots:
But, I set out to prove it nonetheless. So, I grabbed my 1700+ Palomino, and dropped it in the KX7 system that was sitting on my desk. I hooked up the digidoc5, with a thermistor touching the side of the CPU core so I could get the actual CPU temperature. The only cooling was a 2500+ HSF, with various fans. I put MBM5 and F@H on it, fired them up, unplugged the cpu fan, sat back, and watched the thing heat up.
Would you care to guess how hot the 1700+ got (it NEVER froze due to heat- it DID freeze with -forcesse, but it was doing that at 38*C, too. That's just an issue with some of the Palomino cores).
75*C?
No.
80*C?
Nope.
85*C?
*yawn*
87*C
*zzzzz*
Well, I'm actually not entirely sure what I hit- the DigiDoc 5 won't read past 90*C (trust me, I tried- with a Butane torch and a spare thermistor
), but it was AT LEAST 90*C. And judging by the amount of time it took to come down to a temperature of 90*C or below so the DigiDoc5 could read it, I would guess that it actually hit something close to 100*C. While running F@H. Without crashing.It spent a grand total of around 20 minutes at or above 70*C over the course of the test, without crashing. Ever. It then spent all night between 68*C and 53*C, with an average of 59*C (according to MBM5- remember that the actual temperature is 5-10*C higher than this).
So much for "the P4s are more stable at high temperatures", eh?
Some pics/screenshots:
0
Comments
But so are we
Sweet!
Sounds like there may be a grain of truth there to me.
Normal for the Prescott, though, is 66 C +\- one degree C at the OC I have it set at. I've had it running for weeks now, 24\7, at that rate.
One thing about benching for video, Geeky, you might next try this:
Load a video benchmarker, one instance. Get into the Task Manager, in XP Pro, and set process affinity to CPU0, Priority to High, leave it running but not actively benching. Benmchmark video with it set that way. NOW, open the Task Manager, reset the process to normal, check boht pipes, and see if benches improve. They should not change much, most video benchmarkers are 32 bit code, XP will let them use one pipe of CPU-- not both. IF you have a benchmarker that can be run in a window, you might be able to run two, get close to same rates from BOTH at once, versus running just one. Guess, the combined benchmarks (qty two, benchmarks from each added together as that is what the box is actually handling, TWO instances of bench at once), one per pipe, will be about 1.6-1.8X the single benchmark rate, because you are eating lots of RAM, you are using ONE video card, and the Prescott has a cache common to both pipes and does not have the anticipation strategies in the Itanium2 or even the Zeon hardcoded into it.
The sink was so hot he got a nice second degree burn yet the laptop was merrily churning along as if nothing out of the ordinary was wrong, and this was an older P4 laptop...not a P4M, or centrino just a 1.5 or 1.6 P4.
Had that happen a few times, then I started using a thermal sensor first or letting box cool for half an hour first, or blowing chip\component cooler fluid on the HS before working on HS, and 5-8 min of that flow also worked. Using a Data-safe vacuum\blowers blower end also works.
But how fast and how hot was it running? There are no desktop P4s that can handle being run at 90*C at full speed. The clock throttling kicks in before then. It could very well have been maintaining a surface temperature of about 70*C (the max. rated die temp for the older P4s is 65-75*C), which is more than enough to give you a nasty burn. It also wasn't running at full speed.
But, the fact that the P4 can run at 80*C or whatever is irrelevant in this case, because, as I've already proven, the athlon can, too, and it can do it at its rated speed. The P4 has to underclock itself to keep from cooking.
//Edit
Yeah, I have a prescott system. I may give that a try. After I find said prescott, which is MIA, and get a working board for it.
The KX7 has an in-socket diode. It's reading the back of the CPU package, not the actual cpu temperature. That graph was for the overnight run, which averaged 59*C according to mbm5; the actual temperature was closer to 65*C. Look at the photograph of the digidoc 5, and the screenshot above it for the maximum temperature results.
I've seen customer rigs with stock clocked AMD's that were like ovens inside when they ran that never faltered but on the flip side I've seen O.C.'ed AMD's that were very touchy about temps, 2 or 3c the wrong way and they'd refuse to run stably.
Regardless, "Athlon XPs are stable at high temperatures" would be a more fitting title