today we'll find out how much damage can a processor receive and at the same time remain functional today there will be a gas torch a drill and even a grinding machine this time I bought even more old but working crappy processors for socket 775 mainly Celeron d04 which if it dies it won't be a Pity I also have more modern processors on socket 775 but they'll be a snack as you can see the SMD components in most processors are the same probably because there are six identical processors on the left but that's not important what
do you think will the processor work without these SMD components well let's find out I'll run the processors on this cool overclocking motherboard which is capable of lying in the shed and being a home for rats and spiders The Nest is already here by the way the nest is like new I hope today we'll break some contact it's time to assemble the computer on the table I even splurged so much that I bought memory for this disgusting p PC as some uncle said volume wins races and frequency sails memory or was he talking about torque
and horsepower it doesn't matter we don't have any torque or horsepower we only have a disgusting PC which is assembled from junk that I managed to find well let's start with small steps bite off one capacitor and see what comes of it that's right this is when you have a higher education in dilis and at the same time you are the lucky owner of a non-standard set of chromosomes we put the CPU and see if it works or not and it definitely works so let's take a real bite I'm a real jeweler in this matter
and it works again let's try again it works and another one it works again it's not funny why it still starts capacitor after capacitor I mercilessly pulled out in hopes of breaking this processor but the more capacitors I uninstalled the more confident I was that the processor would be able to run without any of them absolutely everything removed hopefully won't catch fire bomb has been planted and it started I'm almost surprised and works fine by the way why does the processor even need these capacitors who knows right about it in the comments and now we
will try to check something with this processor the CPU has a maximum temperature of 61° I suggest scalping it and replacing the thermal paste and see how this changes the temperature of the CPU oh before I forget let's Freeze One processor with water in the refrigerator let's see how our processor reacts to freezing it'll lie for 24 hours in the fridge processor scalping now I will teach you this craft I once did a tribute procedure and had some good success in this craft all we need is some kind of sharp and thin blade to cut
the glue on which the thermal distribution cover is held a knife is not suitable for this business this kind of Blade would be better suited I drive it under the cover in the hope of cutting off my finger but I had no success now I have to turn the thermal cover right and left relative to the texite it sits too tightly it is somehow difficult to move it my God what is this why does it not fall off but this should not be done there is a possibility of leaving the crystal on the thermal cover
the damn cover why does it not come off what the hell that's why it was so difficult the processor was soldered definitely didn't expect that only liquid metal is better than solder in terms of heat transfer so if I apply even the most expensive thermal to the crystal I'll get a worse result than with solder but once I took off the thermal cover let's see if the processor will work without it oh I dropped the radiator need to be more careful and next time I need to drop the Anvil with all my strength but without
the cover the processor does not work either because the clamp is not enough or the processor immediately overheats more likely the second because the computer turns on and after 2 seconds it goes out but I want to be one 100% sure that the problem is only overheating and not clamping so I decided to slightly modify the thermal distribution cover of the processor so that the crystal could be seen with the naked eye and the clamping was normal that's why I decided to cut off the top of the thermal distribution cover I still have to look
for a more ridiculous idea but I coped with this task look how nice it looks even if you take it and hang it on the neck and the neck on a rope and the Rope on a tree and the legs on a chair no it's still a case of overheating pressing it down is already normal and the result is the same but the geometry of the socket and the same radiator does not allow you to reach the crystal with the radiator there is a second option I know for sure that the usual thermal paste under
the cover of this processor and the thermal paste has already dried up a long time ago 55° has this processor at maximum load this is what I said the usual thermal paste now I will change it and we will see the result here are the temperatures before and after replacing the thermal p paste the result is 10° worse maybe it's because the thermal paste is bad and even if the thermal paste is good I don't think that the result will be much better than before scalping by the way here are the results of the Pentium
with solder and thermal paste let's see if our Pentium can withstand a gas torch I don't know what its temperature is but I know that the minimum there are 700° the micro circuit is puffed up I guess I overdid it a bit so like let's check put the CPU the thermal cover on top and the CPU has completely died the processor seems to have stopped heating God bless this hero and what's up with our Frozen friend been more than a day so it's time to defrost the processor Let's Help the processor a little to get
out of the antibiosis that's right the CPU looks fresh and rested and it definitely works it's obvious overclockers cool processors with liquid nitrogen and it generally has a temperature of -20° and the CPUs remain operational let's now see if the CPU can work with the hole suddenly it can work oh no my roof is already completely gone the processor does not heat up at all the next experiment is how much silicone can be cut from the silicone substrate and at the same time processor remains operational I took sandpaper with the gradation of 2000 and started
to rub off the silicone now you can see that something has rubbed off from the corners let's check if it works or not it works I sanded it harder I think you can see it works and here I've been rubbing it for a very long time and I'll tell you that it's not easy to wipe it with 2,000 sandpaper it's not an easy task and takes a lot of time but I don't have a higher grid of sandpaper and it viously works I'm tired of messing with it now I'll sharpen it properly and see if
it'll work or not but unfortunately due to my laziness to work without sandpaper the silicone did not last and became covered with cracks I'm almost 100% sure that it's not working just like that it doesn't even heat up now let's see if the processor will work if we boil it for a little for at least 10 minutes looks like it just went to the bath the contact pad turned white I somehow think that it's working let's check uh no it died I even wiped the contacts from plaque but it did not give any result although
this time it seems to be warming up now let's try to send the processor to Valhalla with the help of overheating on the computer this penum has a maximum temperature of 105° then the computer turns off and now look at what the cellon that I boiled is capable of the boiled water was only 100° and this processor itself is capable of working up to 124° now we'll overheat it until it dies and again it's not as simple as it seems at first glance after 95° the processor drops the voltage that is it starts throttling and
at the 125th degree the computer turns off I overheated this processor 33 times 27 of which were continuous that is immediately after overheating I immediately turned on the computer and what do you think think it's it still works I tried to ignore the temperature in the Bios but it still turns off at 125° probably it has some kind of internal protection let's see what happens if you pull out the processor while the PC is working it just freezes the next time it's turned on it works as before let's try to remove the RAM on the
PC that's turned on the PC also freezes but if you turn it off and put the memory stick back in everything works fine now now turn off the power to the CPU it's also okay 8 Pin video card power supply also nothing let's now find out how many contacts we can block and at the same time for the processor to work I closed one it works I found on the internet the power supply diagram of the processor for socket 775 let's close these upper contacts I closed even more than I wanted let's see if it
works or not it works we raised the rates you know how difficult it is to stick tape on these damn contacts minus 9 contacts it works let's stick these this is how it looks it doesn't work it's because I didn't look at the diagram the right way and Clos the wrong contacts it was necessary to close the contacts from another angle like this - 27 contacts works - 45 contacts works - 120 contacts works - 161 contacts works - 317 contacts I'm already quite surprised minus 401 pins but how's this even possible I I taped
almost all the power contacts I taped six more pins and that 407 there are 368 pins left more than half of the processor is taped and it continues to work all the other power contacts if you look at the diagram are not very convenient and if I try to tape them I'll need a psychiatrist so let's complicate the task for our processor by uninstalling the capacitors if it works even without them I'll be very very surprised bomb has been planted well finally it did not start I already thought it would work and say stop doing
it you fool I will live forever let's freeze some contacts and see if it'll work that's how many contacts can be left taped to get it working again but look what we have here the temperature is - 57° and the voltage seems to be throttling the processor I have an idea but it just froze if you unlock all the contacts the voltage and temperature became correct but I want to check a little more why are these processors are so fat let's trim them on a wet stone and see if it'll work or not this is
what our processor looks like now it seems that I overdid it a bit here now it's much more difficult to put it on the contacts of the socket it becomes crooked and never straight does not heat up and obviously does not work I poked it 20 times on the socket but without results our patient has left hope you had as much fun watching this video as I did subscribe and we will meet very soon