IHS removal and reattachment on Opteron 939 / Athlon 64
Just thought I'd say this right off the bat: Do this at your own risk. I take no responsibility for the brave souls who follow my example 
Well, after reading success story after success story, I finally decided to void the warranty on my 2-week old chip, and pop the IHS. This chip always ran VERY hot, even considering it's high OC and overvolting. At 1.55V it exceeded 60C on aircooling. Under the vapo, it struggles to maintain 5 degrees at full load, which seems too high considering an evaporator temp of -48. I know these sensors are likely not terribly accurate at below zero, but there is no doubt that this bloody opteron runs too hot. Anyhow, Here is the verdict:
Vapochill LS, 3.2GHz, 1.58V full load (FAH Gromacs) with IHS = +3C
Vapochill LS, 3.2GHz, 1.58V full load (FAH Gromacs) without IHS = -9C
My Evaporator temperature is now a few degrees higher, which is a good thing, because it is clearly pumping more of the heat away from this chip now.
I'm still not convinced that I have good contact between the evaporator and the core, but there was an immediate difference! This is with higher ambient temperatures too. 12 degree delta is more than I expected, but as I suspected, the IHS contact must have been poor on this chip. The thermal compound that AMD uses is flaky and hard. The IHS is much thicker than it looks. It is 90% of the weight of the chip. Without it, it feels very flimsy
I had to modify the evaporator by placing some home-made plastic spacers behind the copper head to make it protrude an additional 3mm from the clamshell. The chip is significantly shorter without the thick IHS on it.
Just some history: I butchered an old 2800+ newcastle doing this with the wrong type of blade, and I did not want to make the same mistake again. I saw someone on XS mention that the 'Mach 3' or other disposable razor blades work wonders. I wish I remember who it was so that I can give credit, but boy was he right. The blade is SUPER thin, and makes very quick work of the IHS. It took me longer to rip the blade out of the shaver than to cut the IHS epoxy. Anyhow, be very careful.. they are razor sharp (no pun intended)
. I wrapped the bottom 3/4 of the blade in thick cardboard to protect my hands.
Without further ado, here are some pics:
Well, after reading success story after success story, I finally decided to void the warranty on my 2-week old chip, and pop the IHS. This chip always ran VERY hot, even considering it's high OC and overvolting. At 1.55V it exceeded 60C on aircooling. Under the vapo, it struggles to maintain 5 degrees at full load, which seems too high considering an evaporator temp of -48. I know these sensors are likely not terribly accurate at below zero, but there is no doubt that this bloody opteron runs too hot. Anyhow, Here is the verdict:
Vapochill LS, 3.2GHz, 1.58V full load (FAH Gromacs) with IHS = +3C
Vapochill LS, 3.2GHz, 1.58V full load (FAH Gromacs) without IHS = -9C
My Evaporator temperature is now a few degrees higher, which is a good thing, because it is clearly pumping more of the heat away from this chip now.
I'm still not convinced that I have good contact between the evaporator and the core, but there was an immediate difference! This is with higher ambient temperatures too. 12 degree delta is more than I expected, but as I suspected, the IHS contact must have been poor on this chip. The thermal compound that AMD uses is flaky and hard. The IHS is much thicker than it looks. It is 90% of the weight of the chip. Without it, it feels very flimsy
I had to modify the evaporator by placing some home-made plastic spacers behind the copper head to make it protrude an additional 3mm from the clamshell. The chip is significantly shorter without the thick IHS on it.
Just some history: I butchered an old 2800+ newcastle doing this with the wrong type of blade, and I did not want to make the same mistake again. I saw someone on XS mention that the 'Mach 3' or other disposable razor blades work wonders. I wish I remember who it was so that I can give credit, but boy was he right. The blade is SUPER thin, and makes very quick work of the IHS. It took me longer to rip the blade out of the shaver than to cut the IHS epoxy. Anyhow, be very careful.. they are razor sharp (no pun intended)
. I wrapped the bottom 3/4 of the blade in thick cardboard to protect my hands.Without further ado, here are some pics:
0
Comments
Crazy for sure.. overclocking is a strange sickness.. Almost as obsessive as folding.. but not quite
It is degenerative -->
The blade needs to be VERY thin. Thats how I hacked up that old 2800+. Those razor blades seem to be the only thing I've seen thin enough to get under the IHS. The only thing I used the exacto for was to pry the IHS off once I finished cutting
Thanks ...I certainly would have used an exacto. I almost did it a few times right out of the box but I talked myself out of it and now I'm glad I did.
Did you lap the IHS when you were using it? I did mine but I'm not so sure how thick the thing is and I don't want to sand it to the core.
The IHS is much thicker than it looks. I'd guess at least 2-3mm of heavy metal. You'd have to sand for a long time before you get to the core
Yeah I know ...that doggon thing was so convexed it took me quite a while of lapping just to get it semi flat. Whew ...now I feel like a viagra clown with no date!
I'm going to try a stonger dram drive strength, and see if it helps.
There really is only one cure for the cold bug though
When at load, ~10 below zero seems to be fine. It's just when sitting idle at close to -30C that things go wonkers.
Here's the scanned pic, cut down so it doesn't take forever to load.
Nice mudd! glad to see I'm not the only [strike]incredably insane[/strike] brave soul on the forum
What was your tool of choice to do the cutting?
I guess for several reasons:
1) The A64 SOI cores are apparently much more fragile than the older barton/tbred cores, and genuinely need some protection.
2) Intel did it first.. simply put, the chips are heavier and look more expensive with spreaders, so it could be an 'image' thing as well IMO.
All of AMD's mobile chips are spreaderless for lower weight and better cooling. Laptops are banged around quite a bit, so I don't think the core is *TOO* fragile in that regard.
The stock chips run so cool now-a-days, that I don't think it matters too much. When overclocking and ramping up the vcore, it really makes a difference though.
As far as the A64 core being more fragile than a Tbred core, I don't believe it. Otherwise they would have put an IHS on the mobile proc cores too.
My IHS is lapped but I only see copper on the outter edges about 1/4" in from the edge. I'm considering going even farther with it to see if I can get it all copper exposed. I'm also considering removing the IHS to reapply the TIM and the replacing it back but not sure what to use to affix it with.
Any suggestions? I've heard silicone but I'd rather be safe than sorry.
If you are going to go to the trouble of removing the IHS, why not just run it without the IHS? If you have a waterblock or screw-down HSF, it should be pretty easy to get good contact
I don't think the waterblock I use would do as good of a job on a bare core as it does on the IHS. Just something that was noted at procooling when it first came out. I'm using the apogee btw.
I'll also be mounting a csp-MAG directly over the wb to see if that helps out. I'll probably be using 2 pumps in parallel as well.
For me the main reason to remove the ihs was to reduce the temps which was very important as I'm using a resorator to cool an Opty sli rig
I saw about the same decrease.. about 10-12'C.. It is well worth it on these E4 opterons, thats for sure..
It didn't do anything for me on phase, but I bet that would have amounted to something on air for sure. I used to hit 60'C with an XP90, I'm sure I could have maintained some additional stability at 10'C lower temps.
The biggest difference I saw was a smaller difference in temps between idle and load and a nice drop in temps.
Not really sure about before and afters, my 'testing' was far from scientific.
If you're cooling with anything that might lead to some form of condensation I'd suggest leaving the IHS on the chip instead, its going to keep the core safe from what would otherwise be CPU frying conditions.
I did some research into this before I removed it, because I was planning to run it on the vapochill. It actually makes little difference, and in some respects, it is actually safer to run it without (from a condensation perspective). I was careful to ensure an air-tight seal around the entire CPU socket area, so there should be little to no moisture there. Also, I put dielectric all over the CPU's bare PCB, including the little IC's etc. This area is not possible to reach when covered by the IHS. Even when the IHS is on, there is an opening on one side to allow ventelation, so regarless if it's on or off, the core and CPU IC's can get exposed to moisture..
The biggest fear I had was getting good contact, and trying not to crush the ICs. Unlike the barton chips, the core is very short, and does not protrude from the CPU much, making it very easy to put pressure on the ICs.
As I mentioned earlier, I dropped about 12'C at load, which is quite impressive. Unfortunatly, I've got a mild case of the 'cold bug' now as a result.
I'm very limited in how high I can OC my memory now, and I can not exceed 300MHz base HTT by much. If I push the memory beyond about 230MHz, I get nasty hard-locking when the PC is at idle. At 3.3GHz, it seems to occur no matter what I set the memory to. Seems fine as long as the temperature of ths chip is above -15'C or so. F@H helped to solve that problem, but as soon as it finished a WU and downloaded the next, I got the nasty hard-lock. Thats how quick it occurs. Cranking the vapo heaters to 100% did help, but not by much when it is at 11x303MHz. It seems ok at 3.2GHz (11x291 with a 5/6 divider for 228MHz ram). I used to have no problems at 3.3GHz prior to removing the IHS, but I used to see temps in excess of +8-9'C at load.
At idle, it drops down to -27'Cish. This is just another example proving that the cold bug stems from the integrated memory controller in the 90nm chips.
Looks like this thread is going to turn into the 'I put my IHS back on my Opteron' thread
Since I really didn't gain anything by removing the IHS (aside from better temps, and instability), it is time to figure out how to put it back on. I'm going to take advantage of the fact that it is off, and put some dielectric on the PCB before I re-cap it. I'm pretty confident that some 'cold friendly' TIM should help be beneficial under the IHS, and hopefully it'll raise my temps enough to keep the 'bug' at bay. Stay tuned for some pics..